Keywords: black lcd
Description: Temporal dithering, frame-rate control (FRC), or dynamic dithering look like quickly moving patterns, similar to the one below. Make sure that you did not disable GIF animation in your web browser.
Temporal dithering, frame-rate control (FRC), or dynamic dithering look like quickly moving patterns, similar to the one below. Make sure that you did not disable GIF animation in your web browser. The effect has been exaggerated to clarify the principle.
Many monitors cannot make small brightness steps, especially in the darker shades. Instead, they rapidly alternate between darker and brighter shades for the individual pixels, such that at least on average the brightness is correct.
In older and/or low-end monitors, the dithering pattern may not look like noise, but rather like regular patterns as in the image on the right. The bottom right corner is zoomed in, the rest is at true resolution but again exaggerated for clarity.
Older LCD monitors and many laptop screens do not do temporal dithering at all, but rather static dithering, i.e. they use a fixed pattern of darker and lighter pixels, such as shown here.
A disadvantage of static dithering is that it typically allows 253 shades in each R, G, and B component, rather than the 256 shades that correspond to 8 bits. This is also the case with simpler dynamic dither algorithms. The number 253 originates from a 6-bit (64 shades) display driver that interpolates in 4 steps per shade, which gives 63×4 + 1 = 253 shades. Such displays are sometimes specified as having 16.2 million colors (253 3 ), as compared to 16.78 million colors (256 3 ). Usually it means that the darkest four shades (0, 1, 2, 3) all are displayed as black regardless of the monitor settings.
There appears to be a lot of discussion among tech enthusiasts on web forums about whether a particular monitor is 6 or 8 bits. I believe that this question is as meaningful as asking whether it needs 115 or 230 volts. For the one who designs the monitor, this is a relevant question. However, what matters for you, the user, is whether the monitor can display all 256 shades without disturbing amounts of visible dithering. How much you notice dithering is a combination of factors such the response time of the monitor, how intelligent the dithering algorithm is, the voltage response curve of the LCD pixels, and finally the number of bits.
In any case, if you are interested: if a monitor has an 8-bit driver, it does not necessarily mean that there is no dithering. Such a driver produces a voltage that can vary in 256 steps, but unfortunately the luminance (amount of light emitted) from the pixels is a highly nonlinear function of the voltage, while ideally, the output luminance should be proportional to the RGB values to the power 2.2 (2.2 is the gamma parameter). In order to approximate the ideal luminance curve, dithering is still necessary, which is most noticeable in the darker shades where the natural response of the liquid crystals in the display deviates most strongly from the ideal luminance curve. To make it more complicated, an advanced dithering algorithm can also produce 256 shades with the correct luminance curve on a 6-bit display. The difference is that the dithering ("noise") will be more pronounced. Summarizing: