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Negative pulldown is the manner in which an image is exposed on a film stock, described by the number of film perforations spanned by an individual frame. It can also describe whether the image captured on the negative is oriented horizontally or vertically. Changing the number of exposed perforations allows a cinematographer to change both the aspect ratio of the image and the size of the area on the film stock that the image occupies (which affects image clarity).
The most common negative pulldowns for 35 mm film are 4-perf and 3-perf, the latter of which is usually used in conjunction with Super 35. 2-perf, used in Techniscope in the 1960s, is enjoying a slight resurgence due to the birth of digital intermediate techniques eliminating the need for optical lab work. Vertical pulldown is overwhelmingly the dominant axis of motion in cinematography, although horizontal pulldown is used in IMAX, VistaVision (still in use for some visual effects work), and in 35 mm consumer and professional still cameras.
The majority of 35 mm film systems, cameras, telecine equipment, optical printers, or projectors, are configured to accommodate the 4-perf system; each frame of 35 mm is 4 perforations long. 4-perf was (and remains) the traditional system, and the majority of projectors are based on 4-perf, because 4 perforations is the amount needed per frame vertically in order to have enough negative space for a roughly squarish image, which became the silent film standard aspect ratio of 1.33:1.
Later, when the film industry was facing the perceived threat of obsolescence to television, universally a 1.33:1 aspect ratio at the time (and remained so in many countries until the introduction of DTV), studios started experimenting with various competing widescreen formats.
Eventually, aspect ratios of 1.85:1 in North America and 1.66:1 in Europe became standard for 35 mm productions shot with normal non-anamorphic lenses. However, the aspect ratio for these films is not created within the camera itself but is achieved during projection by placing a cropping device, known as an aperture mask, over the film. As a result, most films are shot in full-screen format—commonly, though inaccurately, referred to as 1.33:1 but actually 1.37:1 due to the inclusion of soundtracks—while being composed for aspect ratios such as 1.85:1 or 1.66:1. These films are then cropped to the desired aspect ratio during projection. Consequently, a significant portion of the film is unused, as the cropped top and bottom sections are typically not intended to be displayed unless the film was specifically protected for full-screen presentation. The 3-perf and 2-perf systems are employed only during the origination and post-production transfer stages.
2-perf camera systems use 2 perforations per frame on 35 mm film with an aspect ratio close to 2.39:1; the aspect ratio used in anamorphic prints. It was first proposed conceptually around 1930, but was not put into practice until 1961, when Techniscope was developed at Technicolor's Italian branch. It has recently been brought up again with the advent of higher quality, lower grain film stocks as well as digital intermediate post-production methods which eliminate optical blowups and thus improve quality. While in the recent past, some companies have offered custom conversions of camera equipment to 2-perf, it appears that camera manufacturers are now poised to support the format. Arri made 2-perf movement blocks for their Arricam and Arriflex 235 cameras available for rental in March 2007. [1] Aaton's Penelope camera, released in October 2008, was the first camera specifically designed for 2-perf usage (as well as 3-perf).
In the early 1980s, Swedish cinematographer Rune Ericson collaborated with Panavision on the concept of creating a 3-perf mechanism for motion picture cameras. [2] The 3-perf system, achieved by altering the camera gate and shutter mechanism, reduces film wastage by using frames that are 3 perforations high instead of the standard 4-perforations. This results in an aspect ratio of approximately 1.78:1, which closely aligns with the widescreen television aspect ratio of 1.85:1, thereby minimizing image loss outside this aspect ratio. Due to the smaller frame size, the camera operates about 25% slower, leading to a 25% reduction in film stock usage. Additionally, the camera operates more quietly because less film passes through the mechanism per frame. The Super 35 variant of 3-perf also provides a larger negative area, which can help offset the increase in grain when using higher-speed film stocks.
In the late 1990s, cinematographer Vittorio Storaro proposed a film standard known as Univisium (also called Univision), which advocated for 3-perf Super 35 to create a 2.00:1 aspect ratio.
One disadvantage of 3-perf and 2-perf is found when projected theatrically, as it needs to be transferred back to a 4-perf system. This typically involves a film print with black cropping on the print itself in order to fit the image onto a 4-perf frame – encountering the same wastage problem as before. Even so, the amount of film shot on a production is much greater than the length of the final film, so 3-perf or 2-perf are still viable cost-saving options for production. Generally, 3-perf is most frequently used for widescreen television productions shot on film, as film is developed and then transferred to video, rendering projection incompatibilities irrelevant. Recently, this process has become popular with big-budget motion picture production, due to the advent of the digital intermediate process. The negative is scanned to high resolution (usually HD, 2K or 4K (digital cinema)) digital files, colour graded, and ultimately printed back to standard 4-perf for projection. At some point in the future, the final 4-perf print will become unnecessary assuming the cinema distribution and projection chain become fully digital.
3-perf and 2-perf pose minor problems for visual effects work. The area of the film in 4-perf work that is not projected nonetheless contains picture information which is useful for such visual effects tasks as 2D and 3D tracking.[ citation needed ] This mildly complicates certain visual effects efforts for productions using 3-perf and 2-perf.
VistaVision is a higher resolution, widescreen variant of the 35 mm motion picture film format which was created by Paramount Pictures in 1954. It uses a horizontal, 8 perforation 35 mm image, similar to that used in 135 film for still photography. Paramount did not use anamorphic processes such as CinemaScope but refined the quality of their flat widescreen system by orienting the 35 mm negative horizontally in the camera gate and shooting onto a larger area, which yielded a finer-grained projection print.
Same as Standard 65 mm except
Same as Standard 65 mm except
Widescreen images are displayed within a set of aspect ratios used in film, television and computer screens. In film, a widescreen film is any film image with a width-to-height aspect ratio greater than 4:3 (1.33:1).
35 mm film is a film gauge used in filmmaking, and the film standard. In motion pictures that record on film, 35 mm is the most commonly used gauge. The name of the gauge is not a direct measurement, and refers to the nominal width of the 35 mm format photographic film, which consists of strips 1.377 ± 0.001 inches (34.976 ± 0.025 mm) wide. The standard image exposure length on 35 mm for movies is four perforations per frame along both edges, which results in 16 frames per foot of film.
VistaVision is a higher resolution, widescreen variant of the 35 mm motion picture film format that was created by engineers at Paramount Pictures in 1954.
70 mm film is a wide high-resolution film gauge for motion picture photography, with a negative area nearly 3.5 times as large as the standard 35 mm motion picture film format. As used in cameras, the film is 65 mm (2.6 in) wide. For projection, the original 65 mm film is printed on 70 mm (2.8 in) film. The additional 5 mm contains the four magnetic stripes, holding six tracks of stereophonic sound. Although later 70 mm prints use digital sound encoding, the vast majority of existing and surviving 70 mm prints pre-date this technology.
16 mm film is a historically popular and economical gauge of film. 16 mm refers to the width of the film ; other common film gauges include 8 mm and 35 mm. It is generally used for non-theatrical film-making, or for low-budget motion pictures. It also existed as a popular amateur or home movie-making format for several decades, alongside 8 mm film and later Super 8 film. Eastman Kodak released the first 16 mm "outfit" in 1923, consisting of a camera, projector, tripod, screen and splicer, for US$335. RCA-Victor introduced a 16 mm sound movie projector in 1932, and developed an optical sound-on-film 16 mm camera, released in 1935.
CinemaScope is an anamorphic lens series used, from 1953 to 1967, and less often later, for shooting widescreen films that, crucially, could be screened in theatres using existing equipment, albeit with a lens adapter.
Anamorphic widescreen is a process by which a comparatively wide widescreen image is horizontally compressed to fit into a storage medium with a narrower aspect ratio, reducing the horizontal resolution of the image while keeping its full original vertical resolution. Compatible play-back equipment can then expand the horizontal dimension to show the original widescreen image. This is typically used to allow one to store widescreen images on a medium that was originally intended for a narrower ratio, while using as much of the frame – and therefore recording as much detail – as possible.
A movie projector is an opto-mechanical device for displaying motion picture film by projecting it onto a screen. Most of the optical and mechanical elements, except for the illumination and sound devices, are present in movie cameras. Modern movie projectors are specially built video projectors.
Todd-AO is an American post-production company founded in 1953 by Mike Todd and Robert Naify, providing sound-related services to the motion picture and television industries. For more than five decades, it was the worldwide leader in theater sound. The company retains one facility, in the Los Angeles area.
Techniscope or 2-perf is a 35 mm motion picture camera film format introduced by Technicolor Italia in 1960. The Techniscope format uses a two film-perforation negative pulldown per frame, instead of the standard four-perforation frame usually exposed in 35 mm film photography. Techniscope's 2.33:1 aspect ratio is easily enlarged to the 2.39:1 widescreen ratio, because it uses half the amount of 35 mm film stock and standard spherical lenses. Thus, Techniscope release prints are made by anamorphosing, enlarging each frame vertically by a factor of two.
Super 35 is a motion picture film format that uses exactly the same film stock as standard 35 mm film, but puts a larger image frame on that stock by using the space normally reserved for the optical analog sound track.
Technirama is a screen process that has been used by some film production houses as an alternative to CinemaScope. It was first used in 1957 but fell into disuse in the mid-1960s. The process was invented by Technicolor and is an anamorphic process with a screen ratio the same as revised CinemaScope (2.35:1), but it is actually 2.25:1 on the negative.
Univisium is a proposed universal film format created by cinematographer Vittorio Storaro, ASC, AIC and his son, Fabrizio, to unify all future theatrical and television films into one respective aspect ratio of 2:1.
The Academy ratio of 1.375:1 is an aspect ratio of a frame of 35 mm film when used with 4-perf pulldown. It was standardized by the Academy of Motion Picture Arts and Sciences as the standard film aspect ratio in 1932, although similar-sized ratios were used as early as 1928.
Film perforations, also known as perfs and sprocket holes, are the holes placed in the film stock during manufacturing and used for transporting and steadying the film. Films may have different types of perforations depending on film gauge, film format, and intended usage. Perforations are also used as a standard measuring reference within certain camera systems to refer to the size of the frame.
This article summarized the comparison of movie cameras.
Anamorphic format is the cinematography technique of shooting a widescreen picture on standard 35 mm film or other visual recording media with a non-widescreen native aspect ratio. It also refers to the projection format in which a distorted image is "stretched" by an anamorphic projection lens to recreate the original aspect ratio on the viewing screen. The word anamorphic and its derivatives stem from the Greek anamorphoo, compound of morphé with the prefix aná.
The aspect ratio of an image is the ratio of its width to its height. It is expressed as two numbers separated by a colon, width:height. Common aspect ratios are 1.85:1 and 2.40:1 in cinematography, 4:3 and 16:9 in television, and 3:2 in still photography.