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 <hr>
 </div>

 <h5 class="subsubsection">9.44.3.3 Constants</h5>

 <p><a name="index-Sparc-constants-2176"></a><a name="index-constants_002c-Sparc-2177"></a>
 Several Sparc instructions take an immediate operand field for
 which mnemonic names exist.  Two such examples are &lsquo;<samp><span class="samp">membar</span></samp>&rsquo;
 and &lsquo;<samp><span class="samp">prefetch</span></samp>&rsquo;.  Another example are the set of V9
 memory access instruction that allow specification of an
 address space identifier.

    <p>The &lsquo;<samp><span class="samp">membar</span></samp>&rsquo; instruction specifies a memory barrier that is
 the defined by the operand which is a bitmask.  The supported
 mask mnemonics are:

      <ul>
 <li>&lsquo;<samp><span class="samp">#Sync</span></samp>&rsquo; requests that all operations (including nonmemory
 reference operations) appearing prior to the <code>membar</code> must have
 been performed and the effects of any exceptions become visible before
 any instructions after the <code>membar</code> may be initiated.  This
 corresponds to <code>membar</code> cmask field bit 2.

      <li>&lsquo;<samp><span class="samp">#MemIssue</span></samp>&rsquo; requests that all memory reference operations
 appearing prior to the <code>membar</code> must have been performed before
 any memory operation after the <code>membar</code> may be initiated.  This
 corresponds to <code>membar</code> cmask field bit 1.

      <li>&lsquo;<samp><span class="samp">#Lookaside</span></samp>&rsquo; requests that a store appearing prior to the
 <code>membar</code> must complete before any load following the
 <code>membar</code> referencing the same address can be initiated.  This
 corresponds to <code>membar</code> cmask field bit 0.

      <li>&lsquo;<samp><span class="samp">#StoreStore</span></samp>&rsquo; defines that the effects of all stores appearing
 prior to the <code>membar</code> instruction must be visible to all
 processors before the effect of any stores following the
 <code>membar</code>.  Equivalent to the deprecated <code>stbar</code> instruction.
 This corresponds to <code>membar</code> mmask field bit 3.

      <li>&lsquo;<samp><span class="samp">#LoadStore</span></samp>&rsquo; defines all loads appearing prior to the
 <code>membar</code> instruction must have been performed before the effect
 of any stores following the <code>membar</code> is visible to any other
 processor.  This corresponds to <code>membar</code> mmask field bit 2.

      <li>&lsquo;<samp><span class="samp">#StoreLoad</span></samp>&rsquo; defines that the effects of all stores appearing
 prior to the <code>membar</code> instruction must be visible to all
 processors before loads following the <code>membar</code> may be performed.
 This corresponds to <code>membar</code> mmask field bit 1.

      <li>&lsquo;<samp><span class="samp">#LoadLoad</span></samp>&rsquo; defines that all loads appearing prior to the
 <code>membar</code> instruction must have been performed before any loads
 following the <code>membar</code> may be performed.  This corresponds to
 <code>membar</code> mmask field bit 0.

    </ul>

    <p>These values can be ored together, for example:

 <pre class="example">     membar #Sync
      membar #StoreLoad | #LoadLoad
      membar #StoreLoad | #StoreStore
 </pre>
    <p>The <code>prefetch</code> and <code>prefetcha</code> instructions take a prefetch
 function code.  The following prefetch function code constant
 mnemonics are available:

      <ul>
 <li>&lsquo;<samp><span class="samp">#n_reads</span></samp>&rsquo; requests a prefetch for several reads, and corresponds
 to a prefetch function code of 0.

      <p>&lsquo;<samp><span class="samp">#one_read</span></samp>&rsquo; requests a prefetch for one read, and corresponds
 to a prefetch function code of 1.

      <p>&lsquo;<samp><span class="samp">#n_writes</span></samp>&rsquo; requests a prefetch for several writes (and possibly
 reads), and corresponds to a prefetch function code of 2.

      <p>&lsquo;<samp><span class="samp">#one_write</span></samp>&rsquo; requests a prefetch for one write, and corresponds
 to a prefetch function code of 3.

      <p>&lsquo;<samp><span class="samp">#page</span></samp>&rsquo; requests a prefetch page, and corresponds to a prefetch
 function code of 4.

      <p>&lsquo;<samp><span class="samp">#invalidate</span></samp>&rsquo; requests a prefetch invalidate, and corresponds to
 a prefetch function code of 16.

      <p>&lsquo;<samp><span class="samp">#unified</span></samp>&rsquo; requests a prefetch to the nearest unified cache, and
 corresponds to a prefetch function code of 17.

      <p>&lsquo;<samp><span class="samp">#n_reads_strong</span></samp>&rsquo; requests a strong prefetch for several reads,
 and corresponds to a prefetch function code of 20.

      <p>&lsquo;<samp><span class="samp">#one_read_strong</span></samp>&rsquo; requests a strong prefetch for one read,
 and corresponds to a prefetch function code of 21.

      <p>&lsquo;<samp><span class="samp">#n_writes_strong</span></samp>&rsquo; requests a strong prefetch for several writes,
 and corresponds to a prefetch function code of 22.

      <p>&lsquo;<samp><span class="samp">#one_write_strong</span></samp>&rsquo; requests a strong prefetch for one write,
 and corresponds to a prefetch function code of 23.

      <p>Onle one prefetch code may be specified.  Here are some examples:

      <pre class="example">          prefetch  [%l0 + %l2], #one_read
           prefetch  [%g2 + 8], #n_writes
           prefetcha [%g1] 0x8, #unified
           prefetcha [%o0 + 0x10] %asi, #n_reads
 </pre>
      <p>The actual behavior of a given prefetch function code is processor
 specific.  If a processor does not implement a given prefetch
 function code, it will treat the prefetch instruction as a nop.

      <p>For instructions that accept an immediate address space identifier,
 <code>as</code> provides many mnemonics corresponding to
 V9 defined as well as UltraSPARC and Niagara extended values.
 For example, &lsquo;<samp><span class="samp">#ASI_P</span></samp>&rsquo; and &lsquo;<samp><span class="samp">#ASI_BLK_INIT_QUAD_LDD_AIUS</span></samp>&rsquo;.
 See the V9 and processor specific manuals for details.

    </ul>

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	Previous: <a rel="previous" accesskey="p" href="Sparc_002dRegs.html#Sparc_002dRegs">Sparc-Regs</a>,
	Up: <a rel="up" accesskey="u" href="Sparc_002dSyntax.html#Sparc_002dSyntax">Sparc-Syntax</a>
	<hr>
	</div>

	<h5 class="subsubsection">9.44.3.3 Constants</h5>

	<p><a name="index-Sparc-constants-2176"></a><a name="index-constants_002c-Sparc-2177"></a>
	Several Sparc instructions take an immediate operand field for
	which mnemonic names exist. Two such examples are ‘<samp><span class="samp">membar</span></samp>’
	and ‘<samp><span class="samp">prefetch</span></samp>’. Another example are the set of V9
	memory access instruction that allow specification of an
	address space identifier.

	<p>The ‘<samp><span class="samp">membar</span></samp>’ instruction specifies a memory barrier that is
	the defined by the operand which is a bitmask. The supported
	mask mnemonics are:

	<ul>
	<li>‘<samp><span class="samp">#Sync</span></samp>’ requests that all operations (including nonmemory
	reference operations) appearing prior to the <code>membar</code> must have
	been performed and the effects of any exceptions become visible before
	any instructions after the <code>membar</code> may be initiated. This
	corresponds to <code>membar</code> cmask field bit 2.

	<li>‘<samp><span class="samp">#MemIssue</span></samp>’ requests that all memory reference operations
	appearing prior to the <code>membar</code> must have been performed before
	any memory operation after the <code>membar</code> may be initiated. This
	corresponds to <code>membar</code> cmask field bit 1.

	<li>‘<samp><span class="samp">#Lookaside</span></samp>’ requests that a store appearing prior to the
	<code>membar</code> must complete before any load following the
	<code>membar</code> referencing the same address can be initiated. This
	corresponds to <code>membar</code> cmask field bit 0.

	<li>‘<samp><span class="samp">#StoreStore</span></samp>’ defines that the effects of all stores appearing
	prior to the <code>membar</code> instruction must be visible to all
	processors before the effect of any stores following the
	<code>membar</code>. Equivalent to the deprecated <code>stbar</code> instruction.
	This corresponds to <code>membar</code> mmask field bit 3.

	<li>‘<samp><span class="samp">#LoadStore</span></samp>’ defines all loads appearing prior to the
	<code>membar</code> instruction must have been performed before the effect
	of any stores following the <code>membar</code> is visible to any other
	processor. This corresponds to <code>membar</code> mmask field bit 2.

	<li>‘<samp><span class="samp">#StoreLoad</span></samp>’ defines that the effects of all stores appearing
	prior to the <code>membar</code> instruction must be visible to all
	processors before loads following the <code>membar</code> may be performed.
	This corresponds to <code>membar</code> mmask field bit 1.

	<li>‘<samp><span class="samp">#LoadLoad</span></samp>’ defines that all loads appearing prior to the
	<code>membar</code> instruction must have been performed before any loads
	following the <code>membar</code> may be performed. This corresponds to
	<code>membar</code> mmask field bit 0.

	</ul>

	<p>These values can be ored together, for example:

	<pre class="example"> membar #Sync
	membar #StoreLoad \| #LoadLoad
	membar #StoreLoad \| #StoreStore
	</pre>
	<p>The <code>prefetch</code> and <code>prefetcha</code> instructions take a prefetch
	function code. The following prefetch function code constant
	mnemonics are available:

	<ul>
	<li>‘<samp><span class="samp">#n_reads</span></samp>’ requests a prefetch for several reads, and corresponds
	to a prefetch function code of 0.

	<p>‘<samp><span class="samp">#one_read</span></samp>’ requests a prefetch for one read, and corresponds
	to a prefetch function code of 1.

	<p>‘<samp><span class="samp">#n_writes</span></samp>’ requests a prefetch for several writes (and possibly
	reads), and corresponds to a prefetch function code of 2.

	<p>‘<samp><span class="samp">#one_write</span></samp>’ requests a prefetch for one write, and corresponds
	to a prefetch function code of 3.

	<p>‘<samp><span class="samp">#page</span></samp>’ requests a prefetch page, and corresponds to a prefetch
	function code of 4.

	<p>‘<samp><span class="samp">#invalidate</span></samp>’ requests a prefetch invalidate, and corresponds to
	a prefetch function code of 16.

	<p>‘<samp><span class="samp">#unified</span></samp>’ requests a prefetch to the nearest unified cache, and
	corresponds to a prefetch function code of 17.

	<p>‘<samp><span class="samp">#n_reads_strong</span></samp>’ requests a strong prefetch for several reads,
	and corresponds to a prefetch function code of 20.

	<p>‘<samp><span class="samp">#one_read_strong</span></samp>’ requests a strong prefetch for one read,
	and corresponds to a prefetch function code of 21.

	<p>‘<samp><span class="samp">#n_writes_strong</span></samp>’ requests a strong prefetch for several writes,
	and corresponds to a prefetch function code of 22.

	<p>‘<samp><span class="samp">#one_write_strong</span></samp>’ requests a strong prefetch for one write,
	and corresponds to a prefetch function code of 23.

	<p>Onle one prefetch code may be specified. Here are some examples:

	<pre class="example"> prefetch [%l0 + %l2], #one_read
	prefetch [%g2 + 8], #n_writes
	prefetcha [%g1] 0x8, #unified
	prefetcha [%o0 + 0x10] %asi, #n_reads
	</pre>
	<p>The actual behavior of a given prefetch function code is processor
	specific. If a processor does not implement a given prefetch
	function code, it will treat the prefetch instruction as a nop.

	<p>For instructions that accept an immediate address space identifier,
	<code>as</code> provides many mnemonics corresponding to
	V9 defined as well as UltraSPARC and Niagara extended values.
	For example, ‘<samp><span class="samp">#ASI_P</span></samp>’ and ‘<samp><span class="samp">#ASI_BLK_INIT_QUAD_LDD_AIUS</span></samp>’.
	See the V9 and processor specific manuals for details.

	</ul>

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