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  1. <HTML>
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  2. <HEAD>
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  3. <TITLE>
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  4. Introduction to the TIFF Documentation
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  5. </TITLE>
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  6. </HEAD>
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  7. <BODY BGCOLOR=white> 
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  8. <FONT FACE="Arial, Helvetica, Sans">
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  9. <H1>
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  10. <IMG SRC=images/strike.gif WIDTH=128 HEIGHT=100 ALIGN=left HSPACE=6>
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  11. Introduction to the TIFF Documentation
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  12. </H1>
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  15. <P>
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  16. The following definitions are used throughout this documentation.
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  17. They are consistent with the terminology used in the TIFF 6.0 specification.
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  18. 

  19. <DL>
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  20. <DT><I>Sample</I>
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  21. <DD>The unit of information stored in an image; often called a
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  22.   channel elsewhere.  Sample values are numbers, usually unsigned
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  23.   integers, but possibly in some other format if the SampleFormat
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  24.   tag is specified in a TIFF
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  25. <DT><I>Pixel</I>
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  26. <DD>A collection of one or more samples that go together.
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  27. <DT><I>Row</I>
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  28. <DD>An Nx1 rectangular collection of pixels.
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  29. <DT><I>Tile</I>
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  30. <DD>An NxM rectangular organization of data (or pixels).
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  31. <DT><I>Strip</I>
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  32. <DD>A tile whose width is the full image width.
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  33. <DT><I>Compression</I>
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  34. <DD>A scheme by which pixel or sample data are stored in
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  35.   an encoded form, specifically with the intent of reducing the
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  36.   storage cost.
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  37. <DT><I>Codec</I>
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  38. <DD>Software that implements the decoding and encoding algorithms
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  39.   of a compression scheme.
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  40. </UL>
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  41. 

  42. <P>
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  43. In order to better understand how TIFF works (and consequently this
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  44. software) it is important to recognize the distinction between the
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  45. physical organization of image data as it is stored in a TIFF and how
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  46. the data is interpreted and manipulated as pixels in an image.  TIFF
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  47. supports a wide variety of storage and data compression schemes that
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  48. can be used to optimize retrieval time and/or minimize storage space.
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  49. These on-disk formats are independent of the image characteristics; it
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  50. is the responsibility of the TIFF reader to process the on-disk storage
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  51. into an in-memory format suitable for an application.  Furthermore, it
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  52. is the responsibility of the application to properly interpret the
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  53. visual characteristics of the image data.  TIFF defines a framework for
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  54. specifying the on-disk storage format and image characteristics with
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  55. few restrictions.  This permits significant complexity that can be
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  56. daunting.  Good applications that handle TIFF work by handling as wide
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  57. a range of storage formats as possible, while constraining the
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  58. acceptable image characteristics to those that make sense for the
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  59. application.
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  60. 

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  62. <P>
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  63. <HR>
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  64. 

  65. Last updated: $Date: 1999-08-09 20:21:21 $
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  66. 

  67. </BODY>
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  68. </HTML>
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