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Monitor Basics in Plain English

Is the beauty of a curve decisive for color reproduction? Learning about LCD monitor gamma

  • Monitor Basics in Plain English

Problems like extremely poor display of shadow areas, blown-out highlights, or images prepared on Macs appearing too dark on Windows computers are often due to gamma characteristics. In this session, we'll discuss gamma, which has a significant impact on color reproduction on LCD monitors. Understanding gamma is useful in both color management and product selection. Users who value picture quality are advised to check this information.
* Below is the translation from the Japanese of the ITmedia article 'Is the Beauty of a Curve Decisive for Color Reproduction? Learning About LCD Monitor Gamma' published July 13, 2009. Copyright 2011 ITmedia Inc. All Rights Reserved.

Just what is monitor gamma?

The term gamma comes from the third letter of the Greek alphabet, written Γ in upper case and γ in lower case. The word gamma occurs often in everyday life, in terms like gamma rays, the star called Gamma Velorum, and gamma-GTP. In computer image processing, the term generally refers to the brightness of intermediate tones (gray).
Let's discuss gamma in a little more detail. In a PC environment, the hardware used when working with color includes monitors, printers, and scanners. When using these devices connected to a PC, we input and output color information to and from each device. Since each device has its own unique color handling characteristics (or tendencies), color information cannot be output exactly as input. The color handling characteristics that arise in input and output are known as gamma characteristics.
The color reproduced on a PC monitor is based on a combination of three primary colors: red (R), green (G), and blue (B). Each RGB color has eight bits (28 = 256 tones) of data. Approximately 16.77 million colors (known as 'full color') result from 256 x 3 (256 R tones * 256 G tones * 256 B tones).
While certain monitors are also compatible with color handling at 10 bits per RGB color (210 = 1024 tones), or 1024 x 3 (approximately 1,064,330,000 colors), operating system and application support for such monitors has lagged. Currently, some 16.77 million colors, with eight bits per RGB color, is the standard color environment for PC monitors.
When a PC and a monitor exchange color information, the ideal is a relationship in which the eight-bit color information per RGB color input from the PC to the monitor can be output accurately—that is, a 1:1 relationship for input:output. However, since gamma characteristics differ between PCs and monitors, color information is not transmitted according to a 1:1 input:output relationship.
How colors ultimately look depends on the relationship resulting from the gamma values (γ) that numerically represent the gamma characteristics of each hardware device. If the color information input is represented as x and output as y, the relationship applying the gamma value can be represented by the equation y = xγ.

Gamma characteristics are represented by the equation y = xγ. At the ideal gamma value of 1.0, y = x; but since each monitor has its own unique gamma characteristics (gamma values), y generally doesn't equal x. The above graph depicts a curve adjusted to the standard Windows gamma value of 2.2. The standard gamma value for the Mac OS is 1.8.

Ordinarily, the nature of monitor gamma is such that intermediate tones tend to appear dark. Efforts seek to promote accurate exchange of color information by inputting data signals in which the intermediate tones have already been brightened to approach an input:output balance of 1:1. Balancing color information to match device gamma characteristics in this way is called gamma correction.

A simple gamma correction system. If we account for monitor gamma characteristics and input color information with gamma values adjusted accordingly (i.e., color information with intermediate tones brightened), color handling approaches the y = x ideal. Since gamma correction generally occurs automatically, users usually obtain correct color handling on a PC monitor without much effort. However, the precision of gamma correction varies from manufacturer to manufacturer and from product to product (see below for details).

The gamma relationship between the operating system and the LCD monitor

In most cases, if a computer runs the Windows operating system, we can achieve close to ideal colors by using a monitor with a gamma value of 2.2. This is because Windows assumes a monitor with a gamma value of 2.2, the standard gamma value for Windows. Most LCD monitors are designed based on a gamma value of 2.2.
The standard monitor gamma value for the Mac OS is 1.8. The same concept applies as in Windows. We can obtain color reproduction approaching the ideal by connecting a Mac to a monitor configured with a gamma value of 1.8.

An example of the same image displayed at gamma values of 2.2 (photo at left) and 1.8 (photo at right). At a gamma value of 1.8, the overall image appears brighter. The LCD monitor used is EIZO's 20-inch wide-screen EV2023W FlexScan model (ITmedia site).

To equalize color handling in mixed Windows and Mac environments, it's a good idea to standardize the gamma values between the two operating systems. Changing the gamma value for the Mac OS is easy; but Windows provides no such standard feature. Since Windows users perform color adjustments through the graphics card driver or separate color-adjustment software, changing the gamma value can be an unexpectedly complex task. If the monitor used in a Windows environment offers a feature for adjusting gamma values, obtaining more accurate results will likely be easier.
If we know that a certain image was created in a Mac OS environment with a gamma value of 1.8, or if an image received from a Mac user appears unnaturally dark, changing the monitor gamma setting to 1.8 should show the image with the colors intended by the creator.

EIZO's LCD monitors allow users to configure the gamma value from the OSD menu, making this procedure easy. In addition to the initially configured gamma value of 2.2., one can choose from multiple settings, including the Mac OS standard of 1.8.

To digress slightly, standard gamma values differ between Windows and Mac OS for reasons related to the design concepts and histories of the two operating systems. Windows adopted a gamma value corresponding to television (2.2), while the Mac OS adopted a gamma value corresponding to commercial printers (1.8). The Mac OS has a long history of association with commercial printing and desktop publishing applications, for which 1.8 remains the basic gamma value, even now. On the other hand, a gamma value of 2.2 is standard in the sRGB color space, the standard for the Internet and for digital content generally, and for Adobe RGB, the use of which has expanded for wide-gamut printing,.
Given the proliferating use of color spaces like sRGB and Adobe RGB, plans call for the latest Mac OS scheduled for release by Apple Computer in September 2009, Mac OS X 10.6 Snow Leopard, to switch from a default gamma value of 1.8 to 2.2. A gamma value of 2.2 is expected to become the future mainstream for Macs.

Internal gamma correction to improve LCD monitor tones

On the preceding page, we mentioned that the standard gamma value in a Windows environment is 2.2 and that many LCD monitors can be adjusted to a gamma value of 2.2. However, due to the individual tendencies of LCD monitors (or the LCD panels installed in them), it's hard to graph a smooth gamma curve of 2.2.
Traditionally, LCD panels have featured S-shaped gamma curves, with ups and downs here and there and curves that diverge by RGB color. This phenomenon is particularly marked for dark and light tones, often appearing to the eye of the user as tone jumps, color deviations, and color breakdown.
The internal gamma correction feature incorporated into LCD monitors that emphasize picture quality allows such irregularity in the gamma curve to be corrected to approach the ideal of y = x γ. Device specs provide one especially useful figure to help us determine whether a monitor has an internal gamma correction feature: A monitor can be considered compatible with internal gamma correction if the figure for maximum number of colors is approximately 1,064,330,000 or 68 billion or if the specs indicate the look-up table (LUT) is 10- or 12-bit.
An internal gamma correction feature applies multi-gradation to colors and reallocates them. While the input from a PC to an LCD monitor is in the form of color information at eight bits per RGB color, within the LCD monitor, multi-gradation is applied to increase this to 10 bits (approximately 1,064,330,000 colors) or 12 bits (approximately 68 billion colors). The optimal color at eight bits per RGB color (approximately 16.77 million colors) is identified by referring to the LUT and displayed on screen. This corrects irregularity in the gamma curve and deviations in each RGB color, causing the output on screen to approach the ideal of y = x γ.
Let's look at a little more information on the LUT. The LUT is a table containing the results of certain calculations performed in advance. The results for certain calculations can be obtained simply by referring to the LUT, without actually performing the calculations. This accelerates processing and reduces the load on a system. The LUT in an LCD monitor identifies the optimal eight-bit RGB colors from multi-gradation color data of 10 or more bits.

An overview of an internal gamma correction feature. Eight-bit RGB color information input from the PC is subjected to multi-gradation to 10 or more bits. This is then remapped to the optimal eight-bit RGB tone by referring to the LUT. Following internal gamma correction, the results approach the ideal gamma curve, dramatically improving on screen gradation and color reproduction.

EIZO's LCD monitors proactively employ internal gamma correction features. In models designed especially for high picture quality and in some models in the ColorEdge series designed for color management, eight-bit RGB input signals from the PC are subjected to multi-gradation, and calculations are performed at 14 or 16 bits. A key reason for performing calculations at bit counts higher than the LUT bit count is to improve gradation still further, particularly the reproduction of darker tones. Users seeking high-quality color reproduction should probably choose a monitor model like this one.
For more information on LUTs, also see Maximum Display Colors and Look-Up Tables: Two Considerations When Choosing a Monitor.

Checking the gamma value of an LCD monitor

In conclusion, we've prepared image patterns that make it easy to check the gamma values of an LCD monitor, based on this session's discussion. Looking directly at your LCD monitor, move back slightly from the screen and gaze at the following images with your eyes half-closed. Visually compare the square outlines and the stripes around them, looking for patterns that appear to have the same tone of gray (brightness). The pattern for which the square frame and the striped pattern around it appear closest in brightness represents the rough gamma value to which the monitor is currently configured.

Based on a gamma value of 2.2, if the square frame appears dark, the LCD monitor's gamma value is low. If the square frame appears bright, the gamma value is high. You can adjust the gamma value by changing the LCD monitor's brightness settings or by adjusting brightness in the driver menu for the graphics card.
Naturally, it's even easier to adjust the gamma if you use a model designed for gamma value adjustments, like an EIZO LCD monitor. For even better color reproduction, you can set the gamma value and optimize color reproduction by calibrating your monitor.


A downloadable game for Windows and macOS

Conquer the world by having children!

Strategic Upbringing Simulation.

Language : English, Korean, Japanese

-------------------------------

A kingdom is invaded

to near destruction.

But, a sole survivor of the throne

refuses to give up hope

and has high ambitions for the kingdom.

Make many spouses,

Make lots of children,

Build an army!

Conquer the world!

-------------------------------

※Cannot change character's name in Mac version.


Kingdom

v1.18 Update

Show Relationship more detail


v1.17 Update

Show Relationship

(Sorry, no more update for Mac)


v1.14 Update (Plus Version)

Open difficulty 'level god'

Enable to multi touch in war

Change image of level 1 of 'Kingdom of God'

Add spring

Add explorer

Kingdom Of Procreation Mac Os Catalina

Show success rate of explore

Add job fair

Add job school

Add Trade in Diplomacy

Fix a bug : crash if name is too long

Fix a bug : can't use spring when hp is full

Fix a bug : Crash after 'change name'

Fix a bug : bomb(or another) button is disabled when touch surrender button

Fix Japanese title


v1.1 Update (Plus Version)

1) Time Attack Mode : Conquer the world within one generation.

2) Challenge Mode : combat with limited soldier.

Kingdom Of Procreation Mac Os Download

3) New Kingdom : Kingdom of God


v1.082 Update

Add 'Remove save file' (System Menu)

Add warning Help

Add elite maid, elite butler

Link Developer's Twitter, Facebook(Staff menu)

Add magic of time stop, poison gas

Add invasion

Add Kingdom of magic

Add Armored soldier, Wizard, Chemist

Prison size by castle size

Improve UI

Stability of save up

Add 'Copy save' (System Menu)

Kingdom Of Procreation Mac Os Catalina

Childs follow the father's surname(not king's surname).

Childs follow mother's surname if player is queen.

v1.05 Update

Add Explore
No need to king's command
Luxury Level Max up
Add rebel
Summary decision : Gambling, violence
Can control scouting speed
Queen's procreation rate up
Exile&explore prisoners directly
Add the Kingdom of Poison (over Difficult 4)
Can select difficult when start
10 prisoner limits
Show saved information ON / OFF (system)
(Recommend to off if it takes a long time when you select 'continue' in main menu)
increase stability of save


v1.0a Update

Remove spy(change to auto)


v1.0 Update

Menu, depending on the level of the open house

Rise the maximum level of luxury

Trainer capacity up(1-> 3)

Rise cost for hire

Kingdom of procreation mac os download

Add Kingdom of Dark(after 2 clear)

Add Kingdom of Cannon(after 3 Clear)

Add Diplomacy

Add spy

Add police

Add unique character image


v0.95 Update

Kingdom Of Procreation Mac Os 11

Add kingdom of fire (after 1 clear)

Add Monk

Add Procreation ban / allowed

Can be used in medicine in war

Change selections for children course

Minor changes propose balance

Remove name character limit

Add 'Scouting' in War menu

Add a bit of help

StatusReleased
PlatformsWindows, macOS
Rating
AuthorDDB
GenreStrategy

Kingdom Of Procreation Mac Os X

Download

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