Frame rate

Frame rate

Frame rate, or frame frequency, is the measurement of the frequency (rate) at which an imaging device produces unique consecutive images called frames. The term applies equally well to computer graphics, video cameras, film cameras, and motion capture systems. Frame rate is most often expressed in frames per second (FPS) and in progressive-scan monitors as hertz (Hz).

Frame rates in film and television

There are three main frame rate standards in the TV and movie-making business.

* 60i (actually 59.94, or 60 x 1000/1001 to be more precise; 60 interlaced fields = 29.97 frames) is the standard video field rate per second that has been used for NTSC television since 1941, whether from a broadcast signal, rented DVD, or home camcorder. (When NTSC color was introduced, the older rate of 60 fields per second was reduced by a factor of 1000/1001 to avoid interference between the chroma subcarrier and the broadcast sound carrier.)

*50i (50 interlaced fields = 25 frames) is the standard video field rate per second for PAL and SECAM television.

* 30p, or 30-frame progressive, is a noninterlaced format and produces video at 30 frames per second. Progressive (noninterlaced) scanning mimics a film camera's frame-by-frame image capture and gives clarity for high speed subjects and a cinematic-like appearance. Shooting in 30p mode offers video with no interlace artifacts. The widescreen film process Todd-AO used this frame rate in 1954–1956. For video, this frame rate originated in the 1980s in the music video industry. Fact|date=February 2007

* The 24p frame rate is also a noninterlaced format, and is now widely adopted by those planning on transferring a video signal to film. But film- and video-makers turn to 24p for the "cine"-look even if their productions are not going to be transferred to film, simply because of the "look" of the frame rate. When transferred to NTSC television, the rate is effectively slowed to 23.976 fps, and when transferred to PAL or SECAM it is sped up to 25 fps. 35 mm movie cameras use a standard exposure rate of 24 frames per second, though many cameras offer rates of 23.976 fps for NTSC television and 25 fps for PAL/SECAM. The 24 fps rate became the de facto standard for sound motion pictures in the mid-1920s. [Kevin Brownlow, " [http://www.cinemaweb.com/silentfilm/bookshelf/18_kb_2.htm Silent Films: What Was the Right Speed?] " (1980).]

* 25p is a video format which runs twenty-five progressive frames per second. This framerate is derived from the PAL television standard of 50i (or 25 interlaced frames per second). While 25p captures only half the motion that normal 50i PAL registers, it yields a higher vertical resolution on moving subjects. It is also better suited to progressive-scan output ("e.g." on LCD displays, computer monitors and projectors) because the interlacing is absent. Like 24p, 25p is often used to achieve "cine"-look.

* 50p and 60p is a progressive format used in high-end HDTV systems. While it is not technically part of the ATSC or DVB broadcast standards, it is rapidly gaining ground in the areas of set-top boxes and video recordings.Fact|date=January 2008

Computer graphics

Frame rate is also a term used in real-time computer graphics systems. In a fashion somewhat digital to the moving-picture definition presented above, a real-time "frame" is the time it takes to complete a full round of the system's processing tasks. If the frame rate of a real-time system is 60 Hertz, the system reevaluates all necessary inputs and updates the necessary outputs 60 times per second under all circumstances.

The designed frame rates of real-time systems vary depending on the equipment. For a real-time system that is steering an oil tanker, a frame rate of 1 Hz may be sufficient, while a rate of even 100 Hz may not be adequate for steering a guided missile. The designer must choose a frame rate appropriate to the application's requirements.

Frame rates in video games

Frame rates are considered important in video games. The frame rate can make the difference between a game that is playable and one that is not. The first 3D first-person adventure game for a personal computer, 3D Monster Maze, had a frame rate of approximately 6 fps, and was still a success. In modern action-oriented games where players must visually track animated objects and react quickly, frame rates of between 30 to 60 fps are considered minimally acceptable by some, though this can vary significantly from game to game. Most modern action games, including popular first person shooters such as Halo 3, run around 30 frames a second, while others, such as , run at 60 frames a second. The framerate within games, particularly PC games, typically varies, depending upon what is currently happening in the game. When the production of a frame makes large demands on the CPU and / or GPU, the framerate falls.

A culture of competition has arisen among game enthusiasts with regards to frame rates, with players striving to obtain the highest fps count possible. Indeed, many benchmarks (such as 3DMark) released by the marketing departments of hardware manufacturers and published in hardware reviews focus on the fps measurement. Modern video cards, often featuring NVIDIA or ATI chipsets, can perform at over 160 fps on graphics intensive games such as F.E.A.R. One single GeForce 8800 GTX has been reported to play F.E.A.R. at up to 386 fps (at a low resolution).Fact|date=February 2007 This does not apply to all games: some games apply a limit on the frame rate. For example, in the "Grand Theft Auto" series, "Grand Theft Auto III" and ' have a standard 30 fps (' runs at 25 fps) and this limit can only be removed at the cost of graphical and gameplay stability. It is also doubtful whether striving for such high frame rates is worthwhile. An average 17" monitor can reach 60 Hz, meaning that any performance reached by the game over 60 fps is discarded. For that reason it is not uncommon to limit the frame rate to the refresh rate of the monitor in a process called vertical synchronization. However, many players feel that not synchronizing every frame produces sufficiently better game execution to justify some "tearing" of the images.

It should also be noted that there is a rather large controversy over what is known as the "feel" of the game frame rate.Fact|date=July 2008 It is arguedWho|date=September 2008 that games with extremely high frame rates "feel" better and smoother than those that are just getting by. Fact|date=July 2008 This is especially true in games such as a first-person shooter.

This choppiness is not a perceived flicker, but a perceived gap between the object in motion and its afterimage left in the eye from the last frame. A computer samples one point in time, then nothing is sampled until the next frame is rendered, so a visible gap can be seen between the moving object and its afterimage in the eye. The reason computer rendered video has a noticeable afterimage separation problem and camera captured video does not is that a camera shutter interrupts the light two or three times for every film frame, thus exposing the film to 2 or 3 samples at different points in time. The light can also enter for the entire time the shutter is open, thus exposing the film to a continuous sample over this time. These multiple samples are naturally interpolated together on the same frame. This leads to a small amount of motion blur between one frame and the next which allows them to transition smoothly.

An example of afterimage separation can be seen when taking a quick 180 degree turn in a game in only 1 second. A still object in the game would render 60 times evenly on that 180 degree arc (at 60 Hz frame rate), and visibly this would separate the object and its afterimage by 3 degrees. A small object and its afterimage 3 degrees apart are quite noticeably separated on screen.

The solution to this problem would be to interpolate the extra frames together in the back-buffer (field multisampling), or simulate the motion blur seen by the human eye in the rendering engine. When vertical sync is enabled, video cards only output a maximum frame rate equal to the refresh rate of the monitor. All extra frames are dropped. When vertical sync is disabled, the video card is free to render frames as fast as it can, but the display of those rendered frames is still limited to the refresh rate of the monitor. For example, a card may render a game at 100 FPS on a monitor running 75 Hz refresh, but no more than 75 FPS can actually be displayed on screen.

Certain elements of a game may be more GPU-intensive than others. While a game may achieve a fairly consistent 60 fps, the frame rate may drop below that during intensive scenes. By achieving frame rates in excess of what is displayable, it makes it less likely that frame rates will drop below what is displayable during heavy CPU/GPU load.

See also

*Federal Standard 1037C
*MIL-STD-188
*Movie projector
*Moving image formats
*Persistence of vision
*List of film formats
*Telecine
*Film-out
*Video compression
*24p
*Refresh rate

External links

* [http://www.100fps.com/how_many_frames_can_humans_see.htm All about framerates]
* [http://spng.se/frame-rate-test/ Frame Rate Test Video Files]
* [http://www.cinemaweb.com/silentfilm/bookshelf/18_kb_2.htm Silent Films: What Was the Right Speed]
* [http://www.microsoft.com/whdc/archive/TempRate.mspx "Temporal Rate Conversion" - a very detailed guide about the visual interference of TV, Video & PC]

References


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