ClearType is a trademark for Microsoft's implementation of subpixel rendering technology. ClearType attempts to improve the appearance of text on certain types of computer display screens by sacrificing color fidelity for additional intensity variation. This trade-off is asserted to work well on LCD flat panel monitors.

ClearType was first announced at the November 1998 COMDEX exhibition. The technology was first introduced in software in January 2000[1] as an always-on feature of Microsoft Reader, which was released to the public in August 2000. ClearType was later introduced as an operating system feature in Windows XP, where it was kept turned off by default. In Windows Vista and Windows 7 ClearType is turned on by default. In Microsoft Office 2007 and later versions, Internet Explorer 7 and later versions and Windows Live Messenger, ClearType is also turned on by default, even if it is not enabled throughout the operating system. ClearType is also an integrated component of the Windows Presentation Foundation text-rendering engine.



Computer displays in which the positions of individual pixels are permanently fixed by the design of the hardware—such as most modern flat panel displays—can show saw-tooth edges when displaying small, high-contrast graphic elements such as text. ClearType uses anti-aliasing at the subpixel level to allegedly reduce visible artifacts on such displays when text is rendered, making the text appear "smoother" and less jagged. ClearType also uses very heavy font hinting to force the font to fit into the pixel grid. This increases edge contrast and readability of small fonts at the expense of font rendering fidelity and has been criticised by graphic designers for making different fonts look similar.

Like most other types of subpixel rendering, ClearType actually involves a compromise, sacrificing one aspect of image quality (color or chrominance detail) for another (light and dark or luminance detail). The compromise can improve text appearance when luminance detail is more important than chrominance.

ClearType is applied only to text that is rendered as such by user and system applications. Other graphic display elements (including text that has already been converted to bitmaps) are not altered by ClearType. For example, text in Microsoft Word will be rendered on the screen with ClearType enhancement, but text placed in a bitmapped image in a program such as Adobe Photoshop will not be modified. In theory, the method (called "RGB Decimation" internally) can be applied to enhance the antialiasing of any digital image.[2]

ClearType is not used when printing text. Most printers already use such small pixels that aliasing is rarely a problem and, in any case, they don't have the addressable fixed subpixels ClearType requires. Nor does ClearType affect text stored in files. ClearType only applies any processing to the text while it is being rendered onto the screen.

ClearType was invented in the Microsoft e-Books team by Bert Keely and Greg Hitchcock. It was then analyzed by researchers in the company, and signal processing expert John Platt designed an improved version of the algorithm.[3] Dick Brass, a Vice President at Microsoft from 1997–2004, complained that the company was slow in moving ClearType to market in the portable computing field.[4]

How ClearType works

Normally, the software in a computer treats the computer’s display screen as a rectangular array of square, indivisible pixels, each of which has an intensity and color that are determined by the blending of three primary colors: red, green, and blue. However, actual display hardware usually implements each pixel as a group of three adjacent, independent subpixels, each of which displays a different primary color. Thus, on a real computer display, each pixel is actually composed of separate red, green, and blue subpixels. For example, if a flat-panel display is examined under a magnifying glass, the pixels may appear as follows:


In the illustration above, there are nine pixels, but there are 27 subpixels.

If the computer controlling the display knows the exact position and color of all the subpixels on the screen, it can take advantage of this to improve the apparent resolution of the images on the screen in certain situations. If each pixel on the display actually contains three rectangular subpixels of red, green, and blue, in that fixed order, then things on the screen that are smaller than one full pixel in size can be rendered by lighting only one or two of the subpixels. For example, if a diagonal line with a width smaller than a full pixel must be rendered, then this can be done by lighting only the subpixels that the line actually touches. If the line passes through the leftmost portion of the pixel, only the red subpixel is lit; if it passes through the rightmost portion of the pixel, only the blue subpixel is lit. This effectively triples the horizontal resolution of the image at normal viewing distances; but the drawback is that the line thus drawn will show color fringes (at some points it might look green, at other points it might look red or blue).

1) A diagonal line on a 1-bit display. 2) Grayscale anti-aliasing. 3) Identical to 1, but on a color monitor. 4) Rendered with direct control of each color subpixel. 5) Smaller version of 1-4. 6) 1 pixel lines without and with anti-aliasing.

ClearType uses this method to improve the smoothness of text. When the elements of a type character are smaller than a full pixel, ClearType lights only the appropriate subpixels of each full pixel in order to more closely follow the outlines of the character. Text rendered with ClearType looks “smoother” than text rendered without it, provided that the pixel layout of the display screen exactly matches what ClearType expects.

The following picture shows a 4× enlargement of the word Wikipedia rendered using ClearType. The word was originally rendered using a Times New Roman 12 pt font.

The word "Wikipedia" rendered using ClearType

In this magnified view, it becomes clear that, while the overall smoothness of the text seems to improve, there is also color fringing of the text.

(a) text rendered without ClearType and (b) text rendered with ClearType

An extreme close-up of a color display shows (a) text rendered without ClearType and (b) text rendered with ClearType. Note the changes in subpixel intensity that are used to increase effective resolution when ClearType is enabled—without ClearType, all sub-pixels of a given pixel have the same intensity.

(a) text rendered without ClearType and (b) text rendered with ClearType

The above shows an animation with some lines of text. In the frame with the orange circle present, the text is rendered using Cleartype (RGB subpixel rendering), and in the one without it, the text is rendered using normal (full pixel greyscale) antialiasing.

ClearType and human vision

ClearType and similar technologies work on the theory that variations in intensity are more noticeable than variations in color. Thus, when ClearType sacrifices color accuracy in order to increase luminance detail, the overall effect—as seen by human eyes—should be an improvement for most people.[citation needed]

According to MSDN website,[5] Microsoft acknowledges that "[t]ext that is rendered with ClearType can also appear significantly different when viewed by individuals with varying levels of color sensitivity. Some individuals can detect slight differences in color better than others."

This opinion is shared[6] by the font designer Thomas Phinney, program manager for fonts and core technologies at Adobe Systems:[7] "There is also considerable variation between individuals in their sensitivity to color fringing. Some people just notice it and are bothered by it a lot more than others."

The hinting expert Beat Stamm, who worked on ClearType at Microsoft,[8] agrees that ClearType may look blurry at 96 dpi, which was a typical[9] resolution for LCDs in 2008, but adds that higher resolution displays improve on this aspect:[10]

WPF [Windows Presentation Foundation] uses method C [ClearType with fractional pixel positioning[11]], but few display devices have a sufficiently high resolution to make the potential blur a moot point for everybody. . . . Some people are ok with the blur in Method C, some aren’t. Anecdotal evidence suggests that some people are fine with Method C when reading continuous text at 96 dpi (e.g. Times Reader, etc.) but not in UI scenarios. Many people are fine with the colors of ClearType, even at 96 dpi, but a few aren’t. . . . To my eyes and at 96 dpi, Method C doesn’t read as well as Method A. It reads “blurrily” to me. Conversely, at 144 dpi, I don’t see a problem with Method C. It looks and reads just fine to me.
Text without rendering (upper portion) and text with ClearType rendering (lower portion)

The above image demonstrates the same portion of text without and with ClearType rendering (as opposed to Standard and ClearType in the previous image). This and the previous image demonstrate the blurring introduced. For many observers this blurring is beneficial. Some observers, however, do not find the use of ClearType beneficial. According to a study at the University of Texas[12], ClearType "may not be universally beneficial". The study notes that maximum benefit may be seen when the information worker is spending large proportions of their time reading text (which is not necessarily the case for the majority of computer users today). Additionally, over one third of the study participants experienced some disadvantage when using ClearType. Whether ClearType, or other rendering, should be used is very subjective and it must be the choice of the individual, with the report recommending "to allow users to disable [ClearType] if they find it produces effects other than improved performance".

Display requirements

ClearType and allied technologies require display hardware with fixed pixels and subpixels. More precisely, the positions of the pixels and subpixels on the screen must be exactly known to the computer to which it is connected. This is the case for flat-panel displays, on which the positions of the pixels are permanently fixed by the design of the screen itself. Almost all flat panels have a perfectly rectangular array of square pixels, each of which contains three rectangular subpixels in the three primary colors, with the normal ordering being red, green, and blue, arranged in vertical bands. ClearType assumes this arrangement of pixels when rendering text.

ClearType does not work properly with flat-panel displays that are operated at resolutions other than their “native” resolutions, since only the native resolution corresponds exactly to the actual positions of pixels on the screen of the display.

If a display does not have the type of fixed pixels that ClearType expects, text rendered with ClearType enabled actually looks worse than type rendered without it. Some flat panels have unusual pixel arrangements, with the colors in a different order, or with the subpixels positioned differently (in three horizontal bands, or in other ways). ClearType needs to be manually tuned for use with such displays (see below).

Displays that have no fixed pixel positions, such as shadow mask CRT displays, may be harder to read if ClearType is enabled. However, on CRT displays with a similar pixel arrangement as flat-panel displays, such as aperture grille and Trinitron CRT displays, it can also result in a slightly improved readability.[13]

Sensitivity to display orientation

Because ClearType utilizes the physical layout of the red, green and blue pigments of the LCD screen, it is sensitive to the orientation of the display.

ClearType in Windows XP currently supports the RGB and BGR sub pixel structures. Rotated displays, in which the subpixels are arranged vertically rather than horizontally, are not currently supported.[14] Using ClearType on these display configurations will actually reduce the display quality. The best option for users of Windows XP having rotated LCD displays (Tablet PCs or swivel-stand LCD displays) is using regular anti-aliasing, or switching off font-smoothing altogether.

The software developer documentation for Windows CE states that ClearType for rotated screens is supported on that platform.[15]

Vertical sub pixel structures are not supported in Windows XP.[16]

ClearType in GDI

ClearType can be globally enabled or disabled for GDI applications. A control panel applet is available to let the users tune the GDI ClearType settings. The GDI implementation of ClearType does not support sub-pixel positioning[17].

ClearType tuning

Microsoft Windows, out of the box, only allows ClearType to be turned on or off. However, there are other parameters that can be set via a ClearType tuner utility that Microsoft makes available as a free download from its site.[18] The tool can also be used for tuning Windows Vista and Windows 7 ClearType settings, on Windows 7 it comes preinstalled and is located inside Control Panel\Appearance and Personalization\Display\Adjust ClearType text. Switching off ClearType disables ClearType completely, as expected, unless the application uses its own ClearType controls, separate from the OS level ones.

The tuner has wizard and advanced modes that adjust the same parameters visually or by direct selection:

  1. Cleartype on/off
  2. RGB or BGR sub pixel structure, though BGR is quite rare, so the default works for most monitors
  3. Contrast

Microsoft Reader has a similar ClearType tuner that only affects that program.

ClearType in WPF

All text in Windows Presentation Foundation is anti-aliased and rendered using ClearType. There are separate ClearType registry settings for GDI and WPF applications, but by default the WPF entries are absent, and the GDI values are used in their absence. WPF registry entries can be tuned using the instructions[19] from the MSDN WPF Text Blog.

ClearType in WPF supports sub-pixel positioning, natural advance widths, Y-direction anti-aliasing and hardware acceleration. However, due to the resolution-independent architecture of WPF, ClearType cannot be optionally turned off in WPF applications.[20][dubious ] WPF supports aggressive caching of pre-rendered ClearType text in video memory.[21] The extent to which this is supported is dependent on the video card. DirectX 10 cards will be able to cache the font glyphs in video memory, then perform the composition (assembling of character glyphs in the correct order, with the correct spacing), alpha blending (application of anti-aliasing), and RGB blending (ClearType's sub-pixel color calculations), entirely in hardware. This means that only the original glyphs need to be stored in video memory once per font (Microsoft estimates that this would require 2 MB of video memory per font), and other operations such as the display of anti-aliased text on top of other graphics — including video — can also be done with no computation effort on the part of the CPU. DirectX 9 cards will only be able to cache the alpha-blended glyphs in memory, thus requiring the CPU to handle glyph composition and alpha-blending before passing this to the video card. Caching these partially-rendered glyphs requires significantly more memory (Microsoft estimates 5 MB per process). Cards that don't support DirectX 9 have no hardware-accelerated text rendering capabilities.

ClearType in DirectWrite

The font rendering engine in DirectWrite supports rendering to sub-pixel positions, as demonstrated at PDC 2008.[22]


ClearType is a registered trademark and is protected by the following U.S. patents:

  • Subpixel rendering:
  • Complex color filtering:
    • U.S. Patent 6,225,973Mapping samples of foreground/background color image data to pixel sub-components
    • U.S. Patent 6,243,070Method and apparatus for detecting and reducing color artifacts in images
    • U.S. Patent 6,393,145Methods apparatus and data structures for enhancing the resolution of images to be rendered on patterned display devices
  • Subpixel font hinting and layout:
    • U.S. Patent 6,421,054Methods and apparatus for performing grid fitting and hinting operations
    • U.S. Patent 6,282,327Maintaining advance widths of existing characters that have been resolution enhanced
  • ClearType tuning:
    • U.S. Patent 6,624,828Method and apparatus for improving the quality of displayed images through the use of user reference information

As of late 2008, another patent is still pending.

See also


  1. ^ "First ClearType screens posted". Microsoft Typography. 2000-01-26. Retrieved 2008-03-20. 
  2. ^ Betrisey et al., "Displaced Filtering for Patterned Displays", Proc. Society for Information Display Symposium, 2000
  3. ^ Platt, J.C., "Optimal Filtering for Patterned Displays", IEEE Signal Processing Letters, 7(7) 2000
  4. ^ Microsoft’s Creative Destruction
  5. ^ Windows Presentation Foundation ClearType Registry Settings
  6. ^ "ClearType, in XP and Vista". Typophile. Retrieved 2010-01-22. 
  7. ^ "Thomas Phinney". MyFonts. 1999-02-22. Retrieved 2010-01-22. 
  8. ^ "Beat Stamm". MyFonts. 1999-02-22. Retrieved 2010-01-22. 
  9. ^ "Dpi: Definition and additional resources from ZDNet". Retrieved 2010-01-22. 
  10. ^ "ClearType, in XP and Vista". Typophile. Retrieved 2010-01-22. 
  11. ^ "Fractional Advance Widths". The Raster Tragedy at Low-Resolution Revisited. 2011-03-14. Retrieved 2011-03-17. 
  12. ^
  13. ^ "ClearType FAQ". Microsoft. 
  14. ^ brandon.furtwangler blog » Blog Archive » Tablets and cleartype, and a requested feature of Avalon
  15. ^ Working with ClearType Fonts
  16. ^ Tablets and cleartype, and a requested feature of Avalon at Brandon Furtwangler blog
  17. ^ Windows Presentation Foundation ClearType Overview
  18. ^ "Microsoft's ClearType Tuner PowerToy". Retrieved 2007-09-27. 
  19. ^ Tips for improving your WPF text rendering experience
  20. ^ WPF ClearType anti-aliasing cannot be turned off
  21. ^ MSDN Library : .NET Development : WPF : ClearType Overview
  22. ^ Kam VedBrat, Leonardo Blanco (2008-10-28). "PC18: Introducing Direct2D and DirectWrite". Microsoft. 

External links

Wikimedia Foundation. 2010.

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