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1358 Unicode Appendix G Script Range of Code Values Khmer (Cambodia) U+1780 U+17FF Lao (Laos) U+0E80 U+0EFF Mongolian U+1800 U+18AF Myanmar U+1000 U+109F Ogham (Ireland) U+1680 U+169F Runic (Germany and Scandinavia) U+16A0 U+16FF Sinhala (Sri Lanka) U+0D80 U+0DFF Telugu (India) U+0C00 U+0C7F Thai U+0E00 U+0E7F Fi Fig. G.4 Fig. G.Fig. G.Fi4g. G.4g.G.4Some character ranges. (Part 2 of 2.) SUMMARY Before Unicode, software developers were plagued by the use of inconsistent character encoding (i.e., numeric values for characters). Most countries and organizations had their own encoding systems, which were incompatible. A good example is the individual encoding systems on the Windows and Macintosh platforms. Computers process data by converting characters to numeric values. For instance, the character a is converted to a numeric value so that a computer can manipulate that piece of data. Without Unicode, localization of global software requires significant modifications to the source code, which results in increased cost and in delays releasing the product. Localization is necessary with each release of a version. By the time a software product is localized for a particular market, a newer version, which needs to be localized as well, is ready for distribution. As a result, it is cumbersome and costly to produce and distribute global software products in a market where there is no universal character encoding standard. The Unicode Consortium developed the Unicode Standard in response to the serious problems created by multiple character encodings and the use of those encodings. The Unicode Standard facilitates the production and distribution of localized software. It outlines a specification for the consistent encoding of the world s characters and symbols. Software products which handle text encoded in the Unicode Standard need to be localized, but the localization process is simpler and more efficient because the numeric values need not be converted. The Unicode Standard is designed to be universal, efficient, uniform and unambiguous. A universal encoding system encompasses all commonly used characters; an efficient encoding system parses text files easily; a uniform encoding system assigns fixed values to all characters; and an unambiguous encoding system represents the same character for any given value. Unicode extends the limited ASCII character set to include all the major characters of the world. Unicode makes use of three Unicode Transformation Formats (UTF): UTF-8, UTF-16 and UTF-32, each of which may be appropriate for use in different contexts. UTF-8 data consists of 8-bit bytes (sequences of one, two, three or four bytes depending on the character being encoded) and is well suited for ASCII-based systems when there is a predominance of one-byte characters (ASCII represents characters as one-byte).
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