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    <title>topic Q13.18 format in Intel® Integrated Performance Primitives</title>
    <link>https://community.intel.com/t5/Intel-Integrated-Performance/Q13-18-format/m-p/954000#M18853</link>
    <description>&lt;DIV&gt;What's Q13.18 format for many function parameters?&lt;/DIV&gt;</description>
    <pubDate>Mon, 14 Jun 2004 10:37:15 GMT</pubDate>
    <dc:creator>Deleted_U_Intel</dc:creator>
    <dc:date>2004-06-14T10:37:15Z</dc:date>
    <item>
      <title>Q13.18 format</title>
      <link>https://community.intel.com/t5/Intel-Integrated-Performance/Q13-18-format/m-p/954000#M18853</link>
      <description>&lt;DIV&gt;What's Q13.18 format for many function parameters?&lt;/DIV&gt;</description>
      <pubDate>Mon, 14 Jun 2004 10:37:15 GMT</pubDate>
      <guid>https://community.intel.com/t5/Intel-Integrated-Performance/Q13-18-format/m-p/954000#M18853</guid>
      <dc:creator>Deleted_U_Intel</dc:creator>
      <dc:date>2004-06-14T10:37:15Z</dc:date>
    </item>
    <item>
      <title>Re: Q13.18 format</title>
      <link>https://community.intel.com/t5/Intel-Integrated-Performance/Q13-18-format/m-p/954001#M18854</link>
      <description>&lt;DIV&gt;&lt;/DIV&gt;
&lt;P&gt;Hi,&lt;/P&gt;
&lt;P&gt;Qm.n format&lt;BR /&gt;&lt;FONT face="TimesNewRoman" size="3"&gt;Several of the primitives require a fractional interpretation of the integer input and/or output arguments. The Qm.n format provides a standard mechanism for representing fractional values using an integer data type. For example, a Q3.4 word is illustrated in &lt;/FONT&gt;&lt;FONT face="TimesNewRoman" color="#0033ff" size="3"&gt;Figure 1-1&lt;/FONT&gt;&lt;FONT face="TimesNewRoman" size="3"&gt;. The integer binary word has been partitioned using an imaginary fixed point. The n-bits to the right of the imaginary point comprise the fractional portion of the value being represented, and these n-bits act as weights for negative powers of 2. The m-bits to the left of the imaginary point comprise the integer portion of the value being represented, and these m-bits act as weights for positive powers of 2. The overall signed Qm.n representation requires a total of m+n+1 bits, with the additional bit required for the sign. As shown in &lt;/FONT&gt;&lt;FONT face="TimesNewRoman" color="#0033ff" size="3"&gt;Figure 1-1&lt;/FONT&gt;&lt;FONT face="TimesNewRoman" size="3"&gt;, the Q3.4 word requires a total of 3+4+1 = 8 bits. The dynamic range for the Q3.4 word spans the open interval [-8, 8), and the precision (or quantization error) is 1/16. The value represented by a particular set of Q3.4 bits is given by the &lt;/FONT&gt;&lt;FONT face="TimesNewRoman" size="3"&gt;adding up the weighted powers of 2: see picture attached.&lt;/FONT&gt;&lt;/P&gt;
&lt;P&gt;&lt;FONT face="TimesNewRoman" size="3"&gt;Regards,&lt;BR /&gt; Vladimir&lt;/FONT&gt;&lt;/P&gt;</description>
      <pubDate>Tue, 15 Jun 2004 18:45:54 GMT</pubDate>
      <guid>https://community.intel.com/t5/Intel-Integrated-Performance/Q13-18-format/m-p/954001#M18854</guid>
      <dc:creator>Vladimir_Dudnik</dc:creator>
      <dc:date>2004-06-15T18:45:54Z</dc:date>
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