Difference between revisions of "Instruction Set"

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m (Protected "Instruction Set": generated ([Edit=<protect-level-bot>] (indefinite) [Move=<protect-level-bot>] (indefinite)))
Line 1,194:Line 1,194:
  
 
<div style="font-size: 10pt; font-weight: bold;" id="s">s</div>
 
<div style="font-size: 10pt; font-weight: bold;" id="s">s</div>
[[Instruction_Set/s2fd|s2fd]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2fd|s2fd]] - Signed integer to decimal float conversion. Current rounding mode.
            floating point; rounding policy: use current dynamic rounding mode; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/s2fde|s2fde]] - Signed integer to decimal float conversion. Rounding to even.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/s2fde|s2fde]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2fdfz|s2fdfz]] - Signed integer to decimal float conversion. Rounding away from zero.
            floating point; rounding policy: to nearest, ties toward even adjacent value; operation
+
<br />
            encoding group selector: exu-side operations; condition code generator: generate
+
[[Instruction_Set/s2fdn|s2fdn]] - Signed integer to decimal float conversion. Rounding towards negative infinity.
            condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/s2fdfz|s2fdfz]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2fdp|s2fdp]] - Signed integer to decimal float conversion. Rounding towards positive infinity.
            floating point; rounding policy: to nearest, ties away from zero; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/s2fdz|s2fdz]] - Signed integer to decimal float conversion. Rounding towards zero.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/s2fdn|s2fdn]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2ff|s2ff]] - Signed integer to binary float conversion. Current rounding mode.
            floating point; rounding policy: toward negative infinity; operation encoding group
+
<br />
            selector: exu-side operations; condition code generator: generate condition codes;
+
[[Instruction_Set/s2ffe|s2ffe]] - Signed integer to binary float conversion. Rounding to even.
            </nowiki><br />
+
<br />
[[Instruction_Set/s2fdp|s2fdp]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2fffz|s2fffz]] - Signed integer to binary float conversion. Rounding away from zero.
            floating point; rounding policy: toward positive infinity; operation encoding group
+
<br />
            selector: exu-side operations; condition code generator: generate condition codes;
+
[[Instruction_Set/s2ffn|s2ffn]] - Signed integer to binary float conversion. Rounding towards negative infinity.
            </nowiki><br />
+
<br />
[[Instruction_Set/s2fdz|s2fdz]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: decimal
+
[[Instruction_Set/s2ffp|s2ffp]] - Signed integer to binary float conversion. Rounding towards positive infinity.
            floating point; rounding policy: toward zero; operation encoding group selector:
+
<br />
            exu-side operations; condition code generator: generate condition codes; operation
+
[[Instruction_Set/s2ffz|s2ffz]] - Signed integer to binary float conversion. Rounding towards zero.
            signature kind: belt operand from ops windo</nowiki><br />
+
<br />
[[Instruction_Set/s2ff|s2ff]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: use current dynamic rounding mode; operation encoding
+
            group selector: exu-side operations; condition code generator: generate condition
+
            codes; </nowiki><br />
+
[[Instruction_Set/s2ffe|s2ffe]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: to nearest, ties toward even adjacent value; operation
+
            encoding group selector: exu-side operations; condition code generator: generate
+
            condition codes; </nowiki><br />
+
[[Instruction_Set/s2fffz|s2fffz]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: to nearest, ties away from zero; operation encoding
+
            group selector: exu-side operations; condition code generator: generate condition
+
            codes; </nowiki><br />
+
[[Instruction_Set/s2ffn|s2ffn]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward negative infinity; operation encoding group
+
            selector: exu-side operations; condition code generator: generate condition codes;
+
            </nowiki><br />
+
[[Instruction_Set/s2ffp|s2ffp]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward positive infinity; operation encoding group
+
            selector: exu-side operations; condition code generator: generate condition codes;
+
            </nowiki><br />
+
[[Instruction_Set/s2ffz|s2ffz]] - <nowiki>principal op code: convert signed integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward zero; operation encoding group selector:
+
            exu-side operations; condition code generator: generate condition codes; operation
+
            signature kind: belt operand from ops windo</nowiki><br />
+
 
[[Instruction_Set/s2u|s2u]] - Signed integer to unsigned integer.
 
[[Instruction_Set/s2u|s2u]] - Signed integer to unsigned integer.
 
<br />
 
<br />
Line 1,303:Line 1,279:
 
<br />
 
<br />
 
[[Instruction_Set/shiftls|shiftls]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
 
[[Instruction_Set/shiftls|shiftls]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
[[Instruction_Set/shiftlss|shiftlss]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftlss|shiftlss]] - Signed bitwise left shift. Saturating.
            arithmetic domain: signed integer; overflow policy: saturating; scalar vs. vector data:
+
<br />
            scalar; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
 
[[Instruction_Set/shiftlssv|shiftlssv]] - Alias for [[Instruction_Set/shiftlss|shiftlss]].<br />
 
[[Instruction_Set/shiftlssv|shiftlssv]] - Alias for [[Instruction_Set/shiftlss|shiftlss]].<br />
 
[[Instruction_Set/shiftlsv|shiftlsv]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
 
[[Instruction_Set/shiftlsv|shiftlsv]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
[[Instruction_Set/shiftlsw|shiftlsw]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftlsw|shiftlsw]] - Signed bitwise left shift. Widening.
            arithmetic domain: signed integer; overflow policy: widening; scalar vs. vector data:
+
<br />
            scalar; operation encoding group selector: exu-side operations; condition code
+
[[Instruction_Set/shiftlswv|shiftlswv]] - Signed bitwise vector left shift. Widening.
            generator: generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftlswv|shiftlswv]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftlsx|shiftlsx]] - Signed bitwise left shift. Excepting.
            arithmetic domain: signed integer; overflow policy: widening; scalar vs. vector data:
+
<br />
            vector; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftlsx|shiftlsx]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
            arithmetic domain: signed integer; overflow policy: excepting; scalar vs. vector data:
+
            scalar; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
 
[[Instruction_Set/shiftlsxv|shiftlsxv]] - Alias for [[Instruction_Set/shiftlsx|shiftlsx]].<br />
 
[[Instruction_Set/shiftlsxv|shiftlsxv]] - Alias for [[Instruction_Set/shiftlsx|shiftlsx]].<br />
 
[[Instruction_Set/shiftlu|shiftlu]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
 
[[Instruction_Set/shiftlu|shiftlu]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
[[Instruction_Set/shiftlus|shiftlus]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftlus|shiftlus]] - Unsigned bitwise left shift. Saturating.
            arithmetic domain: unsigned integer; overflow policy: saturating; scalar vs. vector
+
<br />
            data: scalar; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
 
[[Instruction_Set/shiftlusv|shiftlusv]] - Alias for [[Instruction_Set/shiftlus|shiftlus]].<br />
 
[[Instruction_Set/shiftlusv|shiftlusv]] - Alias for [[Instruction_Set/shiftlus|shiftlus]].<br />
 
[[Instruction_Set/shiftluv|shiftluv]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
 
[[Instruction_Set/shiftluv|shiftluv]] - Alias for [[Instruction_Set/shiftl|shiftl]].<br />
[[Instruction_Set/shiftluw|shiftluw]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftluw|shiftluw]] - Unsigned bitwise left shift. Widening.
            arithmetic domain: unsigned integer; overflow policy: widening; scalar vs. vector data:
+
<br />
            scalar; operation encoding group selector: exu-side operations; condition code
+
[[Instruction_Set/shiftluwv|shiftluwv]] - Unsigned bitwise vector left shift. Widening.
            generator: generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftluwv|shiftluwv]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
[[Instruction_Set/shiftlux|shiftlux]] - Unsigned bitwise left shift. Excepting.
            arithmetic domain: unsigned integer; overflow policy: widening; scalar vs. vector data:
+
<br />
            vector; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftlux|shiftlux]] - <nowiki>principal op code: bitwise shift; shift direction: toward greater significance;
+
            arithmetic domain: unsigned integer; overflow policy: excepting; scalar vs. vector
+
            data: scalar; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
 
[[Instruction_Set/shiftluxv|shiftluxv]] - Alias for [[Instruction_Set/shiftlux|shiftlux]].<br />
 
[[Instruction_Set/shiftluxv|shiftluxv]] - Alias for [[Instruction_Set/shiftlux|shiftlux]].<br />
[[Instruction_Set/shiftrs|shiftrs]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftrs|shiftrs]] - Signed bit shift right.
            arithmetic domain: signed integer; operation encoding group selector: exu-side
+
<br />
            operations; condition code generator: generate condition codes; operation signature
+
[[Instruction_Set/shiftrsf|shiftrsf]] - Signed fixed point shift right. Current dynamic rounding.
            kind: belt operand from ops window, bit numbe</nowiki><br />
+
<br />
[[Instruction_Set/shiftrsf|shiftrsf]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftrsfe|shiftrsfe]] - Signed fixed point shift right. Rounds towards nearest even.
            arithmetic domain: signed fixed point; rounding policy: use current dynamic rounding  
+
<br />
            mode; operation encoding group selector: exu-side operations; condition code generator:
+
[[Instruction_Set/shiftrsffz|shiftrsffz]] - Signed fixed point shift right. Rounds towards nearest away from zero.
            generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftrsfe|shiftrsfe]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftrsfn|shiftrsfn]] - Signed fixed point shift right. Rounds towards negative infinity.
            arithmetic domain: signed fixed point; rounding policy: to nearest, ties toward even  
+
<br />
            adjacent value; operation encoding group selector: exu-side operations; condition code
+
[[Instruction_Set/shiftrsfp|shiftrsfp]] - Signed fixed point shift right. Rounds towards positive infinity.
            generator: generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftrsffz|shiftrsffz]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftrsfz|shiftrsfz]] - Signed fixed point shift right. Rounds towards zero.
            arithmetic domain: signed fixed point; rounding policy: to nearest, ties away from  
+
<br />
            zero; operation encoding group selector: exu-side operations; condition code generator:
+
[[Instruction_Set/shiftru|shiftru]] - Unsigned bit shift right.
            generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftrsfn|shiftrsfn]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftruf|shiftruf]] - Unsigned fixed point shift right. Current dynamic rounding.
            arithmetic domain: signed fixed point; rounding policy: toward negative infinity;
+
<br />
            operation encoding group selector: exu-side operations; condition code generator:
+
[[Instruction_Set/shiftrufe|shiftrufe]] - Unsigned fixed point shift right. Rounds towards nearest even.
            generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftrsfp|shiftrsfp]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftruffz|shiftruffz]] - Unsigned fixed point shift right. Rounds towards nearest away from zero.
            arithmetic domain: signed fixed point; rounding policy: toward positive infinity;
+
<br />
            operation encoding group selector: exu-side operations; condition code generator:
+
[[Instruction_Set/shiftrufn|shiftrufn]] - Unsigned fixed point shift right. Rounds towards negative infinity.
            generate condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftrsfz|shiftrsfz]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
[[Instruction_Set/shiftrufp|shiftrufp]] - Unsigned fixed point shift right. Rounds towards positive infinity.
            arithmetic domain: signed fixed point; rounding policy: toward zero; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/shiftrufz|shiftrufz]] - Unsigned fixed point shift right. Rounds towards zero.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/shiftru|shiftru]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned integer; operation encoding group selector: exu-side
+
            operations; condition code generator: generate condition codes; operation signature
+
            kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
[[Instruction_Set/shiftruf|shiftruf]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: use current dynamic rounding  
+
            mode; operation encoding group selector: exu-side operations; condition code generator:
+
            generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftrufe|shiftrufe]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: to nearest, ties toward even  
+
            adjacent value; operation encoding group selector: exu-side operations; condition code
+
            generator: generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftruffz|shiftruffz]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: to nearest, ties away from  
+
            zero; operation encoding group selector: exu-side operations; condition code generator:
+
            generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftrufn|shiftrufn]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: toward negative infinity;
+
            operation encoding group selector: exu-side operations; condition code generator:
+
            generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftrufp|shiftrufp]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: toward positive infinity;
+
            operation encoding group selector: exu-side operations; condition code generator:
+
            generate condition codes; </nowiki><br />
+
[[Instruction_Set/shiftrufz|shiftrufz]] - <nowiki>principal op code: bitwise shift; shift direction: toward lesser significance;
+
            arithmetic domain: unsigned fixed point; rounding policy: toward zero; operation
+
            encoding group selector: exu-side operations; condition code generator: generate
+
            condition codes; </nowiki><br />
+
 
[[Instruction_Set/shuffle|shuffle]] - Create a new vector where the elements are the values of the first operand vector and their respective positions in the second operand vector.
 
[[Instruction_Set/shuffle|shuffle]] - Create a new vector where the elements are the values of the first operand vector and their respective positions in the second operand vector.
 
<br />
 
<br />
Line 1,461:Line 1,393:
 
<br />
 
<br />
 
[[Instruction_Set/subs|subs]] - Alias for [[Instruction_Set/sub|sub]].<br />
 
[[Instruction_Set/subs|subs]] - Alias for [[Instruction_Set/sub|sub]].<br />
[[Instruction_Set/subss|subss]] - <nowiki>principal op code: subtraction; arithmetic domain: signed integer; overflow policy:
+
[[Instruction_Set/subss|subss]] - Saturating signed integer subtraction.
            saturating; scalar vs. vector data: scalar; operation encoding group selector: exu-side
+
<br />
            operations; condition code generator: generate condition codes; operation signature
+
            kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
 
[[Instruction_Set/subssv|subssv]] - Alias for [[Instruction_Set/subss|subss]].<br />
 
[[Instruction_Set/subssv|subssv]] - Alias for [[Instruction_Set/subss|subss]].<br />
 
[[Instruction_Set/subsv|subsv]] - Alias for [[Instruction_Set/sub|sub]].<br />
 
[[Instruction_Set/subsv|subsv]] - Alias for [[Instruction_Set/sub|sub]].<br />
[[Instruction_Set/subsw|subsw]] - <nowiki>principal op code: subtraction; arithmetic domain: signed integer; overflow policy:
+
[[Instruction_Set/subsw|subsw]] - Widening signed integer subtraction.
            widening; scalar vs. vector data: scalar; operation encoding group selector: exu-side
+
<br />
            operations; condition code generator: generate condition codes; operation signature
+
[[Instruction_Set/subswv|subswv]] - Widening signed integer vector subtraction.
            kind: belt operand from ops window, small immediate constant of per-slot varying
+
<br />
            rang</nowiki><br />
+
[[Instruction_Set/subsx|subsx]] - Excepting signed integer subtraction.
[[Instruction_Set/subswv|subswv]] - <nowiki>principal op code: subtraction; arithmetic domain: signed integer; overflow policy:
+
<br />
            widening; scalar vs. vector data: vector; operation encoding group selector: exu-side
+
            operations; condition code generator: generate condition codes; operation signature
+
            kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
[[Instruction_Set/subsx|subsx]] - <nowiki>principal op code: subtraction; arithmetic domain: signed integer; overflow policy:
+
            excepting; scalar vs. vector data: scalar; operation encoding group selector: exu-side
+
            operations; condition code generator: generate condition codes; operation signature
+
            kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
 
[[Instruction_Set/subsxv|subsxv]] - Alias for [[Instruction_Set/subsx|subsx]].<br />
 
[[Instruction_Set/subsxv|subsxv]] - Alias for [[Instruction_Set/subsx|subsx]].<br />
 
[[Instruction_Set/subu|subu]] - Alias for [[Instruction_Set/sub|sub]].<br />
 
[[Instruction_Set/subu|subu]] - Alias for [[Instruction_Set/sub|sub]].<br />
[[Instruction_Set/subus|subus]] - <nowiki>principal op code: subtraction; arithmetic domain: unsigned integer; overflow
+
[[Instruction_Set/subus|subus]] - Saturating unsigned integer subtraction.
            policy: saturating; scalar vs. vector data: scalar; operation encoding group selector:
+
<br />
            exu-side operations; condition code generator: generate condition codes; operation
+
            signature kind: belt operand from ops window, small immediate constant of per-slot
+
            varying rang</nowiki><br />
+
 
[[Instruction_Set/subusv|subusv]] - Alias for [[Instruction_Set/subus|subus]].<br />
 
[[Instruction_Set/subusv|subusv]] - Alias for [[Instruction_Set/subus|subus]].<br />
 
[[Instruction_Set/subuv|subuv]] - Alias for [[Instruction_Set/sub|sub]].<br />
 
[[Instruction_Set/subuv|subuv]] - Alias for [[Instruction_Set/sub|sub]].<br />
[[Instruction_Set/subuw|subuw]] - <nowiki>principal op code: subtraction; arithmetic domain: unsigned integer; overflow
+
[[Instruction_Set/subuw|subuw]] - Widening unsigned integer subtraction.
            policy: widening; scalar vs. vector data: scalar; operation encoding group selector:
+
<br />
            exu-side operations; condition code generator: generate condition codes; operation
+
[[Instruction_Set/subuwv|subuwv]] - Widening unsigned integer vector subtraction.
            signature kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
<br />
[[Instruction_Set/subuwv|subuwv]] - <nowiki>principal op code: subtraction; arithmetic domain: unsigned integer; overflow
+
[[Instruction_Set/subux|subux]] - Excepting unsigned integer subtraction.
            policy: widening; scalar vs. vector data: vector; operation encoding group selector:
+
<br />
            exu-side operations; condition code generator: generate condition codes; operation
+
            signature kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
[[Instruction_Set/subux|subux]] - <nowiki>principal op code: subtraction; arithmetic domain: unsigned integer; overflow
+
            policy: excepting; scalar vs. vector data: scalar; operation encoding group selector:
+
            exu-side operations; condition code generator: generate condition codes; operation
+
            signature kind: belt operand from ops window, small immediate constant of per-slot
+
            varying rang</nowiki><br />
+
 
[[Instruction_Set/subuxv|subuxv]] - Alias for [[Instruction_Set/subux|subux]].<br />
 
[[Instruction_Set/subuxv|subuxv]] - Alias for [[Instruction_Set/subux|subux]].<br />
  
Line 1,509:Line 1,422:
  
 
<div style="font-size: 10pt; font-weight: bold;" id="u">u</div>
 
<div style="font-size: 10pt; font-weight: bold;" id="u">u</div>
[[Instruction_Set/u2fd|u2fd]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2fd|u2fd]] - Unsigned integer to decimal float conversion. Current rounding mode.
            floating point; rounding policy: use current dynamic rounding mode; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/u2fde|u2fde]] - Unsigned integer to decimal float conversion. Rounding to even.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/u2fde|u2fde]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2fdfz|u2fdfz]] - Unsigned integer to decimal float conversion. Rounding away from zero.
            floating point; rounding policy: to nearest, ties toward even adjacent value; operation
+
<br />
            encoding group selector: exu-side operations; condition code generator: generate
+
[[Instruction_Set/u2fdn|u2fdn]] - Unsigned integer to decimal float conversion. Rounding towards negative infinity.
            condition codes; </nowiki><br />
+
<br />
[[Instruction_Set/u2fdfz|u2fdfz]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2fdp|u2fdp]] - Unsigned integer to decimal float conversion. Rounding towards positive infinity.
            floating point; rounding policy: to nearest, ties away from zero; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/u2fdz|u2fdz]] - Unsigned integer to decimal float conversion. Rounding towards zero.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/u2fdn|u2fdn]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2ff|u2ff]] - Unsigned integer to binary float conversion. Current rounding mode.
            floating point; rounding policy: toward negative infinity; operation encoding group
+
<br />
            selector: exu-side operations; condition code generator: generate condition codes;
+
[[Instruction_Set/u2ffe|u2ffe]] - Unsigned integer to binary float conversion. Rounding to even.
            </nowiki><br />
+
<br />
[[Instruction_Set/u2fdp|u2fdp]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2fffz|u2fffz]] - Unsigned integer to binary float conversion. Rounding away from zero.
            floating point; rounding policy: toward positive infinity; operation encoding group
+
<br />
            selector: exu-side operations; condition code generator: generate condition codes;
+
[[Instruction_Set/u2ffn|u2ffn]] - Unsigned integer to binary float conversion. Rounding towards negative infinity.
            </nowiki><br />
+
<br />
[[Instruction_Set/u2fdz|u2fdz]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: decimal
+
[[Instruction_Set/u2ffp|u2ffp]] - Unsigned integer to binary float conversion. Rounding towards positive infinity.
            floating point; rounding policy: toward zero; operation encoding group selector:
+
<br />
            exu-side operations; condition code generator: generate condition codes; operation
+
[[Instruction_Set/u2ffz|u2ffz]] - Unsigned integer to binary float conversion. Rounding towards zero.
            signature kind: belt operand from ops windo</nowiki><br />
+
<br />
[[Instruction_Set/u2ff|u2ff]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
[[Instruction_Set/u2s|u2s]] - Unsigned integer to signed integer.
            floating point; rounding policy: use current dynamic rounding mode; operation encoding
+
<br />
            group selector: exu-side operations; condition code generator: generate condition
+
[[Instruction_Set/u2ss|u2ss]] - Unsigned integer to signed integer. Saturating.
            codes; </nowiki><br />
+
<br />
[[Instruction_Set/u2ffe|u2ffe]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
            floating point; rounding policy: to nearest, ties toward even adjacent value; operation
+
            encoding group selector: exu-side operations; condition code generator: generate
+
            condition codes; </nowiki><br />
+
[[Instruction_Set/u2fffz|u2fffz]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
            floating point; rounding policy: to nearest, ties away from zero; operation encoding
+
            group selector: exu-side operations; condition code generator: generate condition
+
            codes; </nowiki><br />
+
[[Instruction_Set/u2ffn|u2ffn]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward negative infinity; operation encoding group
+
            selector: exu-side operations; condition code generator: generate condition codes;
+
            </nowiki><br />
+
[[Instruction_Set/u2ffp|u2ffp]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward positive infinity; operation encoding group
+
            selector: exu-side operations; condition code generator: generate condition codes;
+
            </nowiki><br />
+
[[Instruction_Set/u2ffz|u2ffz]] - <nowiki>principal op code: convert unsigned integer to float; arithmetic domain: binary
+
            floating point; rounding policy: toward zero; operation encoding group selector:
+
            exu-side operations; condition code generator: generate condition codes; operation
+
            signature kind: belt operand from ops windo</nowiki><br />
+
[[Instruction_Set/u2s|u2s]] - <nowiki>principal op code: convert unsigned to signed; arithmetic domain: logical; overflow
+
            policy: modulo; scalar vs. vector data: scalar; operation encoding group selector:
+
            exu-side operations; </nowiki><br />
+
[[Instruction_Set/u2ss|u2ss]] - <nowiki>principal op code: convert unsigned to signed; arithmetic domain: logical; overflow
+
            policy: saturating; scalar vs. vector data: scalar; operation encoding group selector:
+
            exu-side operations; </nowiki><br />
+
 
[[Instruction_Set/u2ssv|u2ssv]] - Alias for [[Instruction_Set/u2ss|u2ss]].<br />
 
[[Instruction_Set/u2ssv|u2ssv]] - Alias for [[Instruction_Set/u2ss|u2ss]].<br />
 
[[Instruction_Set/u2sv|u2sv]] - Alias for [[Instruction_Set/u2s|u2s]].<br />
 
[[Instruction_Set/u2sv|u2sv]] - Alias for [[Instruction_Set/u2s|u2s]].<br />
[[Instruction_Set/u2sw|u2sw]] - <nowiki>principal op code: convert unsigned to signed; arithmetic domain: logical; overflow
+
[[Instruction_Set/u2sw|u2sw]] - Unsigned integer to signed integer. Widening.
            policy: widening; scalar vs. vector data: scalar; operation encoding group selector:
+
<br />
            exu-side operations; </nowiki><br />
+
[[Instruction_Set/u2swv|u2swv]] - Unsigned integer vector to signed integer vectors. Widening.
[[Instruction_Set/u2swv|u2swv]] - <nowiki>principal op code: convert unsigned to signed; arithmetic domain: logical; overflow
+
<br />
            policy: widening; scalar vs. vector data: vector; operation encoding group selector:
+
[[Instruction_Set/u2sx|u2sx]] - Unsigned integer to signed integer. Excepting.
            exu-side operations; </nowiki><br />
+
<br />
[[Instruction_Set/u2sx|u2sx]] - <nowiki>principal op code: convert unsigned to signed; arithmetic domain: logical; overflow
+
            policy: excepting; scalar vs. vector data: scalar; operation encoding group selector:
+
            exu-side operations; </nowiki><br />
+
 
[[Instruction_Set/u2sxv|u2sxv]] - Alias for [[Instruction_Set/u2sx|u2sx]].<br />
 
[[Instruction_Set/u2sxv|u2sxv]] - Alias for [[Instruction_Set/u2sx|u2sx]].<br />
  
Line 1,581:Line 1,465:
  
 
<div style="font-size: 10pt; font-weight: bold;" id="w">w</div>
 
<div style="font-size: 10pt; font-weight: bold;" id="w">w</div>
[[Instruction_Set/widen|widen]] - <nowiki>principal op code: widen to double width; arithmetic domain: logical; scalar vs.  
+
[[Instruction_Set/widen|widen]] - Double the scalar width of an unsigned integer.
            vector data: scalar; operation encoding group selector: exu-side operations; operation
+
<br />
            signature kind: belt operand from ops window, belt operand from ops windo</nowiki><br />
+
[[Instruction_Set/widend|widend]] - Double the scalar width of a decimal float.
[[Instruction_Set/widend|widend]] - <nowiki>principal op code: widen to double width; arithmetic domain: decimal floating point;
+
<br />
            scalar vs. vector data: scalar; operation encoding group selector: exu-side operations;
+
[[Instruction_Set/widendv|widendv]] - Double the scalar width of the elements of a decimal float vector.
            </nowiki><br />
+
<br />
[[Instruction_Set/widendv|widendv]] - <nowiki>principal op code: widen to double width; arithmetic domain: decimal floating point;
+
[[Instruction_Set/widenf|widenf]] - Double the scalar width of a binary float.
            scalar vs. vector data: vector; operation encoding group selector: exu-side operations;
+
<br />
            </nowiki><br />
+
[[Instruction_Set/widenfv|widenfv]] - Double the scalar width of the elements of a binary float vector.
[[Instruction_Set/widenf|widenf]] - <nowiki>principal op code: widen to double width; arithmetic domain: binary floating point;
+
<br />
            scalar vs. vector data: scalar; operation encoding group selector: exu-side operations;
+
[[Instruction_Set/widens|widens]] - Double the scalar width of a signed integer.
            </nowiki><br />
+
<br />
[[Instruction_Set/widenfv|widenfv]] - <nowiki>principal op code: widen to double width; arithmetic domain: binary floating point;
+
[[Instruction_Set/widensf|widensf]] - Double the scalar width of a signed fixed point value.
            scalar vs. vector data: vector; operation encoding group selector: exu-side operations;
+
<br />
            </nowiki><br />
+
[[Instruction_Set/widensfv|widensfv]] - Double the scalar widths in a signed fixed point vector.
[[Instruction_Set/widens|widens]] - <nowiki>principal op code: widen to double width; arithmetic domain: signed integer; scalar
+
<br />
            vs. vector data: scalar; operation encoding group selector: exu-side operations;
+
[[Instruction_Set/widensv|widensv]] - Double the scalar widths in an signed integer vector.
            </nowiki><br />
+
<br />
[[Instruction_Set/widensf|widensf]] - <nowiki>principal op code: widen to double width; arithmetic domain: signed fixed point;
+
            scalar vs. vector data: scalar; operation encoding group selector: exu-side operations;
+
            </nowiki><br />
+
[[Instruction_Set/widensfv|widensfv]] - <nowiki>principal op code: widen to double width; arithmetic domain: signed fixed point;
+
            scalar vs. vector data: vector; operation encoding group selector: exu-side operations;
+
            </nowiki><br />
+
[[Instruction_Set/widensv|widensv]] - <nowiki>principal op code: widen to double width; arithmetic domain: signed integer; scalar
+
            vs. vector data: vector; operation encoding group selector: exu-side operations;
+
            </nowiki><br />
+
 
[[Instruction_Set/widenu|widenu]] - Alias for [[Instruction_Set/widen|widen]].<br />
 
[[Instruction_Set/widenu|widenu]] - Alias for [[Instruction_Set/widen|widen]].<br />
[[Instruction_Set/widenuf|widenuf]] - <nowiki>principal op code: widen to double width; arithmetic domain: unsigned fixed point;
+
[[Instruction_Set/widenuf|widenuf]] - Double the scalar width of an unsigned fixed point value.
            scalar vs. vector data: scalar; operation encoding group selector: exu-side operations;
+
<br />
            </nowiki><br />
+
[[Instruction_Set/widenufv|widenufv]] - Double the scalar widths in an unsigned fixed point vector.
[[Instruction_Set/widenufv|widenufv]] - <nowiki>principal op code: widen to double width; arithmetic domain: unsigned fixed point;
+
<br />
            scalar vs. vector data: vector; operation encoding group selector: exu-side operations;
+
            </nowiki><br />
+
 
[[Instruction_Set/widenuv|widenuv]] - Alias for [[Instruction_Set/widenv|widenv]].<br />
 
[[Instruction_Set/widenuv|widenuv]] - Alias for [[Instruction_Set/widenv|widenv]].<br />
[[Instruction_Set/widenv|widenv]] - <nowiki>principal op code: widen to double width; arithmetic domain: logical; scalar vs.  
+
[[Instruction_Set/widenv|widenv]] - Double the scalar widths in an unsigned integer vector.
            vector data: vector; operation encoding group selector: exu-side operations; operation
+
<br />
            signature kind: belt operand from ops windo</nowiki><br />
+
 
[[Instruction_Set/wr|wr]] - <nowiki>principal op code: hardware writer; arithmetic domain: logical; operation encoding  
 
[[Instruction_Set/wr|wr]] - <nowiki>principal op code: hardware writer; arithmetic domain: logical; operation encoding  
 
             group selector: exu-side writers; </nowiki><br />
 
             group selector: exu-side writers; </nowiki><br />

Revision as of 10:31, 11 January 2015

a b c d e f g h i j k l m n o p q r s t u v w x y z

The operations of the full instruction set.

Instruction Set Table, sortable, filterable, Instruction Set by Category, Cores, Registers

a

abortAtomic - principal op code: abort an in-progress atomic extent; operation encoding group selector: flow-side operations;
add - This is the basic overflowing integer addition. With 32bit values it defines the Cycle on the Mill architecture.
add1u - Increment by one.
addd - Decimal floating point add in current rounding mode.
addde - Decimal floating point add in current rounding to even.
adddfz - Decimal floating point add in current rounding away from zero.
adddn - Decimal floating point add in current rounding to nearest.
adddp - Decimal floating point add in current rounding towards positive infinity.
adddz - Decimal floating point add in current rounding towards zero.
addf - Floating point add in current rounding mode.
addfe - Floating point add in current rounding to even.
addffz - Floating point add in current rounding away from zero.
addfn - Floating point add in current rounding to nearest.
addfp - Floating point add in current rounding towards positive infinity.
addfz - Floating point add in current rounding towards zero.
addp - Pointer addition. Protects the upper 4 reserved bits, can be scaled for indexing.
adds - Alias for add.
addss - Saturating signed integer addition.
addssv - Alias for addss.
addsv - Alias for add.
addsw - Widening signed integer addition.
addswv - Widening signed integer vector addition.
addsx - Excepting signed integer add.
addsxv - Alias for addsx.
addu - Alias for add.
addus - Saturating unsigned integer addition.
addusv - Alias for addus.
adduv - Alias for add.
adduw - Widening unsigned integer addition.
adduwv - Widening unsigned integer vector addition.
addux - Excepting unsigned integer add.
adduxv - Alias for addux.
all - Returns true if the lowest bit in all vector elements is set.
allocStack - principal op code: allocate more memory in the current stack frame; operation encoding group selector: flow-side operations;
alternate - Interlace two Vectors.
andl - Bitwise and.
andls - Alias for andl.
andlu - Alias for andl.
any - Returns true if the lowest bit in any of the vector elements is set.
argSize - principal op code: set size of memory argument block for following dynCall; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;

b

BID2d - principal op code: decimal format conversion; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations; operation signature kind: belt operand from ops windo
br - Conditionless branch.
brfl - Branch on false predicate.
brtr - Branch on true predicate.

c

cachebcl - principal op code: cache control operation; memory sub-operation: Load entire code range to lowest on-chip cache; operation encoding group selector: flow-side operations;
cachebdl - principal op code: cache control operation; memory sub-operation: Load entire data range to lowest on-chip cache; operation encoding group selector: flow-side operations;
cached - principal op code: cache control operation; memory sub-operation: duplicate cache line to new address; operation encoding group selector: flow-side operations; operation signature kind: belt operand from opsWindow, belt operand from opsWindo
cachee - principal op code: cache control operation; memory sub-operation: evict cache line to memory; operation encoding group selector: flow-side operations; operation signature kind: belt operand from opsWindow, belt operand from opsWindo
cachex - principal op code: cache control operation; memory sub-operation: discard cache line without flush; operation encoding group selector: flow-side operations; operation signature kind: belt operand from opsWindo
call - The general purpose unconditional abstract call operations you will be using when writing general assembly code.
call0 - principal op code: function call; sense of condition: taken unconditionally; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
call1 - principal op code: function call; sense of condition: taken unconditionally; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
callfl - principal op code: function call; sense of condition: taken if false; number of results from a call: any number of results; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
callfl0 - principal op code: function call; sense of condition: taken if false; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
callfl1 - principal op code: function call; sense of condition: taken if false; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
callfln - principal op code: function call; sense of condition: taken if false; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
calln - principal op code: function call; sense of condition: taken unconditionally; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
calltr - principal op code: function call; sense of condition: taken if true; number of results from a call: any number of results; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
calltr0 - principal op code: function call; sense of condition: taken if true; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
calltr1 - principal op code: function call; sense of condition: taken if true; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
calltrn - principal op code: function call; sense of condition: taken if true; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
carry - Gets the carry/borrow flag or condition code of the ganged operation and puts it on the belt.
classifyd - Produce an enum value to classify binary floating points into normal values, subnormals, infinities and NaNs etc.
classifyf - Produce an enum value to classify binary floating points into normal values, subnormals, infinities and NaNs etc.
clear - Clear a single indexed bit.
comp - Bitwise ones complement.
con - Drop an immediate constant on the belt.
conform - Reorder belt.
countlfl - Count the zero bits from the left.
countltr - Count the one bits from the left.
countrfl - Count the zero bits from the right.
countrtr - Count the one bits from the right.

d

d2BID - principal op code: decimal format conversion; arithmetic domain: logical; operation encoding group selector: exu-side operations;
d2DPD - principal op code: decimal format conversion; arithmetic domain: logical; operation encoding group selector: exu-side operations;
delta - The delta or distance between two pointers. |x - y|
divd - Decimal floating point division in current rounding mode.
divde - Decimal floating point division in current rounding to even.
divdfz - Decimal floating point division in current rounding away from zero.
divdn - Decimal floating point division in current rounding to nearest.
divdp - Decimal floating point division in current rounding towards positive infinity.
divdz - Decimal floating point division in current rounding towards zero.
divf - Floating point division in current rounding mode.
divfe - Floating point division in current rounding to even.
divffz - Floating point division in current rounding away from zero.
divfn - Floating point division in current rounding to nearest.
divfp - Floating point division in current rounding towards positive infinity.
divfz - Floating point division in current rounding towards zero.
divRems - Signed integer division for quotient and remainder.
divRemu - Unsigned integer division for quotient and remainder.
divs - Signed integer division for quotient.
divu - Unsigned integer division for quotient.
DPD2d - principal op code: decimal format conversion; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations; operation signature kind: belt operand from ops windo

e

enterAtomic - principal op code: begin a new optimistic atomic extent; operation encoding group selector: flow-side operations;
eql - Integer equality comparison.
eqld - Decimal float equality comparison.
eqldx - Decimal float equality comparison. NaN-Aware.
eqlf - Binary float equality comparison.
eqlfx - Binary float equality comparison. NaN-Aware.
eqlp - Pointer equality.
eqls - Alias for eql.
eqlu - Alias for eql.
exitAtomic - principal op code: commit an in-progress atomic extent and return status; operation encoding group selector: flow-side operations;
exscratchf - principal op code: allocate extended scratchpad space in memory; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
externalized - principal op code: convert a floating-point number from internal to memory format; arithmetic domain: decimal floating point; operation encoding group selector: flow-side operations;
externalizef - principal op code: convert a floating-point number from internal to memory format; arithmetic domain: binary floating point; operation encoding group selector: flow-side operations;
extract - Extract a vector element to a scalar value operand.
exuArgs - Additional arguments for Ganged operations.

f

f2fd - Convert decimal floating point into binary floating point in current rounding mode.
f2fde - Convert decimal floating point into binary floating point, rounding to even.
f2fdfz - Convert decimal floating point into binary floating point, rounding away from zero.
f2fdn - Convert decimal floating point into binary floating point, rounding to nearest.
f2fdp - Convert decimal floating point into binary floating point, rounding towards positive infinity.
f2fdz - Convert decimal floating point into binary floating point, rounding towards zero.
f2ff - Convert binary floating point into decimal floating point in current rounding mode.
f2ffe - Convert binary floating point into decimal floating point, rounding to even.
f2fffz - Convert binary floating point into decimal floating point, rounding away from zero.
f2ffn - Convert binary floating point into decimal floating point, rounding to nearest.
f2ffp - Convert binary floating point into decimal floating point, rounding towards positive infinity.
f2ffz - Convert binary floating point into decimal floating point, rounding towards zero.
f2sd - Inexactly convert a decimal floating point value to a signed integer, in current rounding mode and normal modulo overflow.
f2sde - Inexactly convert a decimal floating point value to a signed integer, rounding toward even and normal modulo overflow.
f2sdfz - Inexactly convert a decimal floating point value to a signed integer, rounding away from zero and normal modulo overflow.
f2sdn - Inexactly convert a decimal floating point value to a signed integer, rounding toward nearest and normal modulo overflow.
f2sdp - Inexactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and normal modulo overflow.
f2sds - Inexactly convert a decimal floating point value to a signed integer, in current rounding mode and producing saturating result values.
f2sdse - Inexactly convert a decimal floating point value to a signed integer, rounding toward even and producing saturating result values.
f2sdsfz - Inexactly convert a decimal floating point value to a signed integer, rounding away from zero and producing saturating result values.
f2sdsn - Inexactly convert a decimal floating point value to a signed integer, rounding toward nearest and producing saturating result values.
f2sdsp - Inexactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and producing saturating result values.
f2sdsz - Inexactly convert a decimal floating point value to a signed integer, rounding toward zero and producing saturating result values.
f2sdx - Inexactly convert a decimal floating point value to a signed integer, in current rounding mode and producing NaRs on overflow.
f2sdxe - Inexactly convert a decimal floating point value to a signed integer, rounding toward even and producing NaRs on overflow.
f2sdxfz - Inexactly convert a decimal floating point value to a signed integer, rounding away from zero and producing NaRs on overflow.
f2sdxn - Inexactly convert a decimal floating point value to a signed integer, rounding toward nearest and producing NaRs on overflow.
f2sdxp - Inexactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and producing NaRs on overflow.
f2sdxz - Inexactly convert a decimal floating point value to a signed integer, rounding toward zero and producing NaRs on overflow.
f2sdz - Inexactly convert a decimal floating point value to a signed integer, rounding toward zero and normal modulo overflow.
f2sed - Exactly convert a decimal floating point value to a signed integer, in current rounding mode and normal modulo overflow.
f2sede - Exactly convert a decimal floating point value to a signed integer, rounding toward even and normal modulo overflow.
f2sedfz - Exactly convert a decimal floating point value to a signed integer, rounding away from zero and normal modulo overflow.
f2sedn - Exactly convert a decimal floating point value to a signed integer, rounding toward nearest and normal modulo overflow.
f2sedp - Exactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and normal modulo overflow.
f2seds - Exactly convert a decimal floating point value to a signed integer, in current rounding mode and producing saturating result values.
f2sedse - Exactly convert a decimal floating point value to a signed integer, rounding toward even and producing saturating result values.
f2sedsfz - Exactly convert a decimal floating point value to a signed integer, rounding away from zero and producing saturating result values.
f2sedsn - Exactly convert a decimal floating point value to a signed integer, rounding toward nearest and producing saturating result values.
f2sedsp - Exactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and producing saturating result values.
f2sedsz - Exactly convert a decimal floating point value to a signed integer, rounding toward zero and producing saturating result values.
f2sedx - Exactly convert a decimal floating point value to a signed integer, in current rounding mode and producing NaRs on overflow.
f2sedxe - Exactly convert a decimal floating point value to a signed integer, rounding toward even and producing NaRs on overflow.
f2sedxfz - Exactly convert a decimal floating point value to a signed integer, rounding away from zero and producing NaRs on overflow.
f2sedxn - Exactly convert a decimal floating point value to a signed integer, rounding toward nearest and producing NaRs on overflow.
f2sedxp - Exactly convert a decimal floating point value to a signed integer, rounding toward positive infinity and producing NaRs on overflow.
f2sedxz - Exactly convert a decimal floating point value to a signed integer, rounding toward zero and producing NaRs on overflow.
f2sedz - Exactly convert a decimal floating point value to a signed integer, rounding toward zero and normal modulo overflow.
f2sef - Exactly convert a binary floating point value to a signed integer, in current rounding mode and normal modulo overflow.
f2sefe - Exactly convert a binary floating point value to a signed integer, rounding toward even and normal modulo overflow.
f2seffz - Exactly convert a binary floating point value to a signed integer, rounding away from zero and normal modulo overflow.
f2sefn - Exactly convert a binary floating point value to a signed integer, rounding toward nearest and normal modulo overflow.
f2sefp - Exactly convert a binary floating point value to a signed integer, rounding toward positive infinity and normal modulo overflow.
f2sefs - Exactly convert a binary floating point value to a signed integer, in current rounding mode and producing saturating result values.
f2sefse - Exactly convert a binary floating point value to a signed integer, rounding toward even and producing saturating result values.
f2sefsfz - Exactly convert a binary floating point value to a signed integer, rounding away from zero and producing saturating result values.
f2sefsn - Exactly convert a binary floating point value to a signed integer, rounding toward nearest and producing saturating result values.
f2sefsp - Exactly convert a binary floating point value to a signed integer, rounding toward positive infinity and producing saturating result values.
f2sefsz - Exactly convert a binary floating point value to a signed integer, rounding toward zero and producing saturating result values.
f2sefx - Exactly convert a binary floating point value to a signed integer, in current rounding mode and producing NaRs on overflow.
f2sefxe - Exactly convert a binary floating point value to a signed integer, rounding toward even and producing NaRs on overflow.
f2sefxfz - Exactly convert a binary floating point value to a signed integer, rounding away from zero and producing NaRs on overflow.
f2sefxn - Exactly convert a binary floating point value to a signed integer, rounding toward nearest and producing NaRs on overflow.
f2sefxp - Exactly convert a binary floating point value to a signed integer, rounding toward positive infinity and producing NaRs on overflow.
f2sefxz - Exactly convert a binary floating point value to a signed integer, rounding toward zero and producing NaRs on overflow.
f2sefz - Exactly convert a binary floating point value to a signed integer, rounding toward zero and normal modulo overflow.
f2sf - Inexactly convert a binary floating point value to a signed integer, in current rounding mode and normal modulo overflow.
f2sfe - Inexactly convert a binary floating point value to a signed integer, rounding toward even and normal modulo overflow.
f2sffz - Inexactly convert a binary floating point value to a signed integer, rounding away from zero and normal modulo overflow.
f2sfn - Inexactly convert a binary floating point value to a signed integer, rounding toward nearest and normal modulo overflow.
f2sfp - Inexactly convert a binary floating point value to a signed integer, rounding toward positive infinity and normal modulo overflow.
f2sfs - Inexactly convert a binary floating point value to a signed integer, in current rounding mode and producing saturating result values.
f2sfse - Inexactly convert a binary floating point value to a signed integer, rounding toward even and producing saturating result values.
f2sfsfz - Inexactly convert a binary floating point value to a signed integer, rounding away from zero and producing saturating result values.
f2sfsn - Inexactly convert a binary floating point value to a signed integer, rounding toward nearest and producing saturating result values.
f2sfsp - Inexactly convert a binary floating point value to a signed integer, rounding toward positive infinity and producing saturating result values.
f2sfsz - Inexactly convert a binary floating point value to a signed integer, rounding toward zero and producing saturating result values.
f2sfx - Inexactly convert a binary floating point value to a signed integer, in current rounding mode and producing NaRs on overflow.
f2sfxe - Inexactly convert a binary floating point value to a signed integer, rounding toward even and producing NaRs on overflow.
f2sfxfz - Inexactly convert a binary floating point value to a signed integer, rounding away from zero and producing NaRs on overflow.
f2sfxn - Inexactly convert a binary floating point value to a signed integer, rounding toward nearest and producing NaRs on overflow.
f2sfxp - Inexactly convert a binary floating point value to a signed integer, rounding toward positive infinity and producing NaRs on overflow.
f2sfxz - Inexactly convert a binary floating point value to a signed integer, rounding toward zero and producing NaRs on overflow.
f2sfz - Inexactly convert a binary floating point value to a signed integer, rounding toward zero and normal modulo overflow.
f2ud - Inexactly convert a decimal floating point value to a unsigned integer, in current rounding mode and normal modulo overflow.
f2ude - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward even and normal modulo overflow.
f2udfz - Inexactly convert a decimal floating point value to a unsigned integer, rounding away from zero and normal modulo overflow.
f2udn - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and normal modulo overflow.
f2udp - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and normal modulo overflow.
f2uds - Inexactly convert a decimal floating point value to a unsigned integer, in current rounding mode and producing saturating result values.
f2udse - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward even and producing saturating result values.
f2udsfz - Inexactly convert a decimal floating point value to a unsigned integer, rounding away from zero and producing saturating result values.
f2udsn - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and producing saturating result values.
f2udsp - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and producing saturating result values.
f2udsz - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward zero and producing saturating result values.
f2udx - Inexactly convert a decimal floating point value to a unsigned integer, in current rounding mode and producing NaRs on overflow.
f2udxe - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward even and producing NaRs on overflow.
f2udxfz - Inexactly convert a decimal floating point value to a unsigned integer, rounding away from zero and producing NaRs on overflow.
f2udxn - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and producing NaRs on overflow.
f2udxp - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and producing NaRs on overflow.
f2udxz - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward zero and producing NaRs on overflow.
f2udz - Inexactly convert a decimal floating point value to a unsigned integer, rounding toward zero and normal modulo overflow.
f2ued - Exactly convert a decimal floating point value to a unsigned integer, in current rounding mode and normal modulo overflow.
f2uede - Exactly convert a decimal floating point value to a unsigned integer, rounding toward even and normal modulo overflow.
f2uedfz - Exactly convert a decimal floating point value to a unsigned integer, rounding away from zero and normal modulo overflow.
f2uedn - Exactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and normal modulo overflow.
f2uedp - Exactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and normal modulo overflow.
f2ueds - Exactly convert a decimal floating point value to a unsigned integer, in current rounding mode and producing saturating result values.
f2uedse - Exactly convert a decimal floating point value to a unsigned integer, rounding toward even and producing saturating result values.
f2uedsfz - Exactly convert a decimal floating point value to a unsigned integer, rounding away from zero and producing saturating result values.
f2uedsn - Exactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and producing saturating result values.
f2uedsp - Exactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and producing saturating result values.
f2uedsz - Exactly convert a decimal floating point value to a unsigned integer, rounding toward zero and producing saturating result values.
f2uedx - Exactly convert a decimal floating point value to a unsigned integer, in current rounding mode and producing NaRs on overflow.
f2uedxe - Exactly convert a decimal floating point value to a unsigned integer, rounding toward even and producing NaRs on overflow.
f2uedxfz - Exactly convert a decimal floating point value to a unsigned integer, rounding away from zero and producing NaRs on overflow.
f2uedxn - Exactly convert a decimal floating point value to a unsigned integer, rounding toward nearest and producing NaRs on overflow.
f2uedxp - Exactly convert a decimal floating point value to a unsigned integer, rounding toward positive infinity and producing NaRs on overflow.
f2uedxz - Exactly convert a decimal floating point value to a unsigned integer, rounding toward zero and producing NaRs on overflow.
f2uedz - Exactly convert a decimal floating point value to a unsigned integer, rounding toward zero and normal modulo overflow.
f2uef - Exactly convert a binary floating point value to a unsigned integer, in current rounding mode and normal modulo overflow.
f2uefe - Exactly convert a binary floating point value to a unsigned integer, rounding toward even and normal modulo overflow.
f2ueffz - Exactly convert a binary floating point value to a unsigned integer, rounding away from zero and normal modulo overflow.
f2uefn - Exactly convert a binary floating point value to a unsigned integer, rounding toward nearest and normal modulo overflow.
f2uefp - Exactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and normal modulo overflow.
f2uefs - Exactly convert a binary floating point value to a unsigned integer, in current rounding mode and producing saturating result values.
f2uefse - Exactly convert a binary floating point value to a unsigned integer, rounding toward even and producing saturating result values.
f2uefsfz - Exactly convert a binary floating point value to a unsigned integer, rounding away from zero and producing saturating result values.
f2uefsn - Exactly convert a binary floating point value to a unsigned integer, rounding toward nearest and producing saturating result values.
f2uefsp - Exactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and producing saturating result values.
f2uefsz - Exactly convert a binary floating point value to a unsigned integer, rounding toward zero and producing saturating result values.
f2uefx - Exactly convert a binary floating point value to a unsigned integer, in current rounding mode and producing NaRs on overflow.
f2uefxe - Exactly convert a binary floating point value to a unsigned integer, rounding toward even and producing NaRs on overflow.
f2uefxfz - Exactly convert a binary floating point value to a unsigned integer, rounding away from zero and producing NaRs on overflow.
f2uefxn - Exactly convert a binary floating point value to a unsigned integer, rounding toward nearest and producing NaRs on overflow.
f2uefxp - Exactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and producing NaRs on overflow.
f2uefxz - Exactly convert a binary floating point value to a unsigned integer, rounding toward zero and producing NaRs on overflow.
f2uefz - Exactly convert a binary floating point value to a unsigned integer, rounding toward zero and normal modulo overflow.
f2uf - Inexactly convert a binary floating point value to a unsigned integer, in current rounding mode and normal modulo overflow.
f2ufe - Inexactly convert a binary floating point value to a unsigned integer, rounding toward even and normal modulo overflow.
f2uffz - Inexactly convert a binary floating point value to a unsigned integer, rounding away from zero and normal modulo overflow.
f2ufn - Inexactly convert a binary floating point value to a unsigned integer, rounding toward nearest and normal modulo overflow.
f2ufp - Inexactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and normal modulo overflow.
f2ufs - Inexactly convert a binary floating point value to a unsigned integer, in current rounding mode and producing saturating result values.
f2ufse - Inexactly convert a binary floating point value to a unsigned integer, rounding toward even and producing saturating result values.
f2ufsfz - Inexactly convert a binary floating point value to a unsigned integer, rounding away from zero and producing saturating result values.
f2ufsn - Inexactly convert a binary floating point value to a unsigned integer, rounding toward nearest and producing saturating result values.
f2ufsp - Inexactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and producing saturating result values.
f2ufsz - Inexactly convert a binary floating point value to a unsigned integer, rounding toward zero and producing saturating result values.
f2ufx - Inexactly convert a binary floating point value to a unsigned integer, in current rounding mode and producing NaRs on overflow.
f2ufxe - Inexactly convert a binary floating point value to a unsigned integer, rounding toward even and producing NaRs on overflow.
f2ufxfz - Inexactly convert a binary floating point value to a unsigned integer, rounding away from zero and producing NaRs on overflow.
f2ufxn - Inexactly convert a binary floating point value to a unsigned integer, rounding toward nearest and producing NaRs on overflow.
f2ufxp - Inexactly convert a binary floating point value to a unsigned integer, rounding toward positive infinity and producing NaRs on overflow.
f2ufxz - Inexactly convert a binary floating point value to a unsigned integer, rounding toward zero and producing NaRs on overflow.
f2ufz - Inexactly convert a binary floating point value to a unsigned integer, rounding toward zero and normal modulo overflow.
face - principal op code: fetch-ahead count extension; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
fault - Raise an application fault event.
fill - principal op code: retore spilled operand from extended scratchpad; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
flip - Bit complement.
flips - Alias for flip.
flipu - Alias for flip.
flowArgs - principal op code: four-byte constant continuation, conditional predicate, or other ganged argument; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes; operation signature kind: manifest constan
fmad - Decimal floating point fused multiply-add.
fmade - Decimal floating point fused multiply-add.
fmadfz - Decimal floating point fused multiply-add.
fmadn - Decimal floating point fused multiply-add.
fmadp - Decimal floating point fused multiply-add.
fmadz - Decimal floating point fused multiply-add.
fmaf - Binary floating point fused multiply-add.
fmafe - Binary floating point fused multiply-add.
fmaffz - Binary floating point fused multiply-add.
fmafn - Binary floating point fused multiply-add.
fmafp - Binary floating point fused multiply-add.
fmafz - Binary floating point fused multiply-add.

g

geq - Integer greater than or equal comparison.
geqd - Decimal float greater than or equal comparison.
geqdx - Decimal float greater than or equal comparison. NaN-Aware.
geqf - Binary float greater than or equal comparison.
geqfx - Binary float greater than or equal comparison. NaN-Aware.
geqp - Alias for leqp.
geqs - Alias for gtrs.
gequ - Alias for lequ.
gtr - Integer greater than comparison.
gtrd - Decimal float greater than comparison.
gtrdx - Decimal float greater than comparison. NaN-Aware.
gtrf - Binary float greater than comparison.
gtrfx - Binary float greater than comparison. NaN-Aware.
gtrp - Alias for lssp.
gtrs - Signed integer greater than comparison.
gtru - Unsigned integer greater than comparison.

i

imp - Bitwise implication.
imps - Alias for imp.
impu - Alias for imp.
inject - Replace a vector element with a different scalar value.
inner - principal op code: enter a loop; sense of condition: taken unconditionally; number of results from a call: any number of results; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
inner0 - principal op code: enter a loop; sense of condition: taken unconditionally; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
inner1 - principal op code: enter a loop; sense of condition: taken unconditionally; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innerfl - principal op code: enter a loop; sense of condition: taken if false; number of results from a call: any number of results; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innerfl0 - principal op code: enter a loop; sense of condition: taken if false; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innerfl1 - principal op code: enter a loop; sense of condition: taken if false; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innerfln - principal op code: enter a loop; sense of condition: taken if false; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innern - principal op code: enter a loop; sense of condition: taken unconditionally; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innertr - principal op code: enter a loop; sense of condition: taken if true; number of results from a call: any number of results; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innertr0 - principal op code: enter a loop; sense of condition: taken if true; number of results from a call: no result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innertr1 - principal op code: enter a loop; sense of condition: taken if true; number of results from a call: one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
innertrn - principal op code: enter a loop; sense of condition: taken if true; number of results from a call: more than one result; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
integerd - Inexactly round a decimal float to an integer valued float. Uses current dynamic rounding mode.
integerde - Inexactly round a decimal float to an integer valued float. Rounds towards nearest even.
integerdfz - Inexactly round a decimal float to an integer valued float. Rounds towards nearest away from zero.
integerdn - Inexactly round a decimal float to an integer valued float. Rounds towards negative infinity.
integerdp - Inexactly round a decimal float to an integer valued float. Rounds towards positive infinity.
integerdz - Inexactly round a decimal float to an integer valued float. Rounds towards zero.
integered - Exactly round a decimal float to an integer valued float. Uses current dynamic rounding mode.
integerede - Exactly round a decimal float to an integer valued float. Rounds towards nearest even.
integeredfz - Exactly round a decimal float to an integer valued float. Rounds towards nearest away from zero.
integeredn - Exactly round a decimal float to an integer valued float. Rounds towards negative infinity.
integeredp - Exactly round a decimal float to an integer valued float. Rounds towards positive infinity.
integeredz - Exactly round a decimal float to an integer valued float. Rounds towards zero.
integeref - Exactly round a binary float to an integer valued float. Uses current dynamic rounding mode.
integerefe - Exactly round a binary float to an integer valued float. Rounds towards nearest even.
integereffz - Exactly round a binary float to an integer valued float. Rounds towards nearest away from zero.
integerefn - Exactly round a binary float to an integer valued float. Rounds towards negative infinity.
integerefp - Exactly round a binary float to an integer valued float. Rounds towards positive infinity.
integerefz - Exactly round a binary float to an integer valued float. Rounds towards zero.
integerf - Inexactly round a binary float to an integer valued float. Uses current dynamic rounding mode.
integerfe - Inexactly round a binary float to an integer valued float. Rounds towards nearest even.
integerffz - Inexactly round a binary float to an integer valued float. Rounds towards nearest away from zero.
integerfn - Inexactly round a binary float to an integer valued float. Rounds towards negative infinity.
integerfp - Inexactly round a binary float to an integer valued float. Rounds towards positive infinity.
integerfz - Inexactly round a binary float to an integer valued float. Rounds towards zero.
internalized - principal op code: convert a floating-point number from memory to internal format; arithmetic domain: decimal floating point; operation encoding group selector: flow-side operations;
internalizef - principal op code: convert a floating-point number from memory to internal format; arithmetic domain: binary floating point; operation encoding group selector: flow-side operations;

l

lea - Load Effective Address.
left - Count leading false in or construct bool vector with leading false.
leq - Integer lesser than or equal comparison.
leqd - Decimal float lesser than or equal comparison.
leqdx - Decimal float lesser than or equal comparison. NaN-Aware.
leqf - Binary float lesser than or equal comparison.
leqfx - Binary float lesser than or equal comparison. NaN-Aware.
leqp - principal op code: less than or equal; arithmetic domain: pointers; operation encoding group selector: exu-side operations;
leqs - Signed integer lesser than or equal comparison.
lequ - Unsigned integer lesser than or equal comparison.
load - principal op code: load from memory; arithmetic domain: logical; addressing base: pointer; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero or one constant bytes;
loadd - principal op code: load from memory; arithmetic domain: decimal floating point; addressing base: register; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes; operation signature kind: base special register, manifest constant, belt operand from opsWindow, scale factor for indexes in load/store/lea, data width and scalarity (flo
loadf - principal op code: load from memory; arithmetic domain: binary floating point; addressing base: register; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes; operation signature kind: base special register, manifest constant, belt operand from opsWindow, scale factor for indexes in load/store/lea, data width and scalarity (flow), morsel-sized manifest constan
logBd - principal op code: extract exponent; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations;
logBf - principal op code: extract exponent; arithmetic domain: binary floating point; operation encoding group selector: exu-side operations;
lss - Integer lesser than comparison.
lssd - Decimal float lesser than comparison.
lssdx - Decimal float lesser than comparison. NaN-Aware.
lssf - Binary float lesser than comparison.
lssfx - Binary float lesser than comparison. NaN-Aware.
lssp - Pointer lesser than.
lsss - Signed integer lesser than comparison.
lssu - Unsigned integer lesser than comparison.

m

mask - Convert between bitmasks and bool vectors.
maxd - Decimal maximum.
maxf - Binary float maximum.
merge - Bitwise merge.
mind - Decimal minimum.
minf - Binary float minimum.
mul - Integer multiplication.
muld - Decimal floating point multiplication in current rounding mode.
mulde - Decimal floating point multiplication in current rounding to even.
muldfz - Decimal floating point multiplication in current rounding away from zero.
muldn - Decimal floating point multiplication in current rounding to nearest.
muldp - Decimal floating point multiplication in current rounding towards positive infinity.
muldz - Decimal floating point multiplication in current rounding towards zero.
mulf - Floating point multplication in current rounding mode.
mulfe - Floating point multplication in current rounding to even.
mulffz - Floating point multplication in current rounding away from zero.
mulfn - Floating point multplication in current rounding to nearest.
mulfp - Floating point multplication in current rounding towards positive infinity.
mulfz - Floating point multplication in current rounding towards zero.
muls - Alias for mul.
mulsf - Signed Fixed Point multiply. Uses current dynamic rounding mode.
mulsfe - Signed Fixed Point multiply. Rounds towards nearest even.
mulsffz - Signed Fixed Point multiply. Rounds towards nearest away from zero.
mulsfn - Signed Fixed Point multiply. Rounds towards negative infinity.
mulsfp - Signed Fixed Point multiply. Rounds towards positive infinity.
mulsfs - Signed Fixed Point multiply. Uses current dynamic rounding mode.
mulsfse - Signed Fixed Point multiply. Rounds towards nearest even.
mulsfsfz - Signed Fixed Point multiply. Rounds towards nearest away from zero.
mulsfsn - Signed Fixed Point multiply. Rounds towards negative infinity.
mulsfsp - Signed Fixed Point multiply. Rounds towards positive infinity.
mulsfsz - Signed Fixed Point multiply. Rounds towards zero.
mulsfw - Signed Fixed Point multiply. Uses current dynamic rounding mode.
mulsfwe - Signed Fixed Point multiply. Rounds towards nearest even.
mulsfwfz - Signed Fixed Point multiply. Rounds towards nearest away from zero.
mulsfwn - Signed Fixed Point multiply. Rounds towards negative infinity.
mulsfwp - Signed Fixed Point multiply. Rounds towards positive infinity.
mulsfwz - Signed Fixed Point multiply. Rounds towards zero.
mulsfx - Signed Fixed Point multiply. Uses current dynamic rounding mode.
mulsfxe - Signed Fixed Point multiply. Rounds towards nearest even.
mulsfxfz - Signed Fixed Point multiply. Rounds towards nearest away from zero.
mulsfxn - Signed Fixed Point multiply. Rounds towards negative infinity.
mulsfxp - Signed Fixed Point multiply. Rounds towards positive infinity.
mulsfxz - Signed Fixed Point multiply. Rounds towards zero.
mulsfz - Signed Fixed Point multiply. Rounds towards zero.
mulss - Signed Integer multiply. Saturating.
mulssv - Alias for mulss.
mulsv - Alias for mul.
mulsw - Signed Integer multiply. Widening.
mulswv - Signed integer multiply. Widening for a vector.
mulsx - Signed Integer multiply. Excepting.
mulsxv - Alias for mulsx.
mulu - Alias for mul.
muluf - Unsigned Fixed Point multiply. Uses current dynamic rounding mode.
mulufe - Unsigned Fixed Point multiply. Rounds towards nearest even.
muluffz - Unsigned Fixed Point multiply. Rounds towards nearest away from zero.
mulufn - Unsigned Fixed Point multiply. Rounds towards negative infinity.
mulufp - Unsigned Fixed Point multiply. Rounds towards positive infinity.
mulufs - Unsigned Fixed Point multiply. Uses current dynamic rounding mode.
mulufse - Unsigned Fixed Point multiply. Rounds towards nearest even.
mulufsfz - Unsigned Fixed Point multiply. Rounds towards nearest away from zero.
mulufsn - Unsigned Fixed Point multiply. Rounds towards negative infinity.
mulufsp - Unsigned Fixed Point multiply. Rounds towards positive infinity.
mulufsz - Unsigned Fixed Point multiply. Rounds towards zero.
mulufw - Unsigned Fixed Point multiply. Uses current dynamic rounding mode.
mulufwe - Unsigned Fixed Point multiply. Rounds towards nearest even.
mulufwfz - Unsigned Fixed Point multiply. Rounds towards nearest away from zero.
mulufwn - Unsigned Fixed Point multiply. Rounds towards negative infinity.
mulufwp - Unsigned Fixed Point multiply. Rounds towards positive infinity.
mulufwz - Unsigned Fixed Point multiply. Rounds towards zero.
mulufx - Unsigned Fixed Point multiply. Uses current dynamic rounding mode.
mulufxe - Unsigned Fixed Point multiply. Rounds towards nearest even.
mulufxfz - Unsigned Fixed Point multiply. Rounds towards nearest away from zero.
mulufxn - Unsigned Fixed Point multiply. Rounds towards negative infinity.
mulufxp - Unsigned Fixed Point multiply. Rounds towards positive infinity.
mulufxz - Unsigned Fixed Point multiply. Rounds towards zero.
mulufz - Unsigned Fixed Point multiply. Rounds towards zero.
mulus - Unsigned integer multiply. Saturating.
mulusv - Alias for mulus.
muluv - Alias for mul.
muluw - Unsigned integer multiply. Widening.
muluwv - Unsigned integer multiply. Widening for a vector.
mulux - Unsigned integer multiply. Excepting.
muluxv - Alias for mulux.

n

nand - Bitwise nand.
nands - Alias for nand.
nandu - Alias for nand.
NaR - Produces a NaR of the given width and kind.
narrow - Half the width of an integer value.
narrowd - Half the width of a decimal float value. Current rounding mode.
narrowde - Half the width of a decimal float value. Rounding to nearest even.
narrowdfz - Half the width of a decimal float value. Rounding to nearest away from zero.
narrowdn - Half the width of a decimal float value. Rounding towards negative infinity.
narrowdp - Half the width of a decimal float value. Rounding towards positive infinity.
narrowdz - Half the width of a decimal float value. Rounding towards zero.
narrowf - Half the width of a binary float value. Current rounding mode.
narrowfe - Half the width of a binary float value. Rounding to nearest even.
narrowffz - Half the width of a binary float value. Rounding to nearest away from zero.
narrowfn - Half the width of a binary float value. Rounding towards negative infinity.
narrowfp - Half the width of a binary float value. Rounding towards positive infinity.
narrowfz - Half the width of a binary float value. Rounding towards zero.
narrows - Alias for narrow.
narrowss - Half the width of a signed integer value. Saturating on overflow.
narrowsx - Half the width of a signed integer value. Exception on overflow.
narrowu - Alias for narrow.
narrowus - Half the width of an unsigned integer value. Saturating on overflow.
narrowux - Half the width of an unsigned integer value. Exception on overflow.
neg - Integer arithmetic negation. Modulo overflow.
negd - Decimal float arithmetic negation.
negf - Binary float arithmetic negation.
negs - Alias for neg.
negss - Integer arithmetic negation. Saturating overflow.
negssv - Alias for negss.
negsv - Alias for neg.
negsw - Integer arithmetic negation. Widening.
negswv - principal op code: negate; arithmetic domain: signed integer; overflow policy: widening; scalar vs. vector data: vector; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops windo
negsx - Integer arithmetic negation. Exception on overflow.
negsxv - Alias for negsx.
neq - Integer inequality comparison.
neqd - Decimal float inequality comparison.
neqdx - Decimal float inequality comparison. NaN-Aware.
neqf - Binary float inequality comparison.
neqfx - Binary float inequality comparison. NaN-Aware.
neqp - Pointer inequality.
neqs - Alias for neq.
nequ - Alias for neq.
nextDownd - principal op code: next smaller representable value; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
nextDownf - principal op code: next smaller representable value; arithmetic domain: binary floating point; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
nextUpd - principal op code: next larger representable value; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
nextUpf - principal op code: next larger representable value; arithmetic domain: binary floating point; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
nimp - Bitwise negative implication.
nimps - Alias for nimp.
nimpu - Alias for nimp.
nope - No operation. Exu side.
nopf - No operation. Flow side.
nor - Bitwise nor.
norddx - principal op code: unordered relation; arithmetic domain: decimal floating point; NaN-awareness: NaN-aware; operation encoding group selector: exu-side operations;
nordfx - principal op code: unordered relation; arithmetic domain: binary floating point; NaN-awareness: NaN-aware; operation encoding group selector: exu-side operations;
nors - Alias for nor.
noru - Alias for nor.
notl - principal op code: logical not; arithmetic domain: logical; operation encoding group selector: exu-side operations;
notls - Alias for notl.
notlu - Alias for notl.
nxor - Bitwise nxor.
nxors - Alias for nxor.
nxoru - Alias for nxor.

o

ones - Count all the one bits in the value.
orddx - principal op code: ordered relation; arithmetic domain: decimal floating point; NaN-awareness: NaN-aware; operation encoding group selector: exu-side operations;
ordfx - principal op code: ordered relation; arithmetic domain: binary floating point; NaN-awareness: NaN-aware; operation encoding group selector: exu-side operations;
orl - Bitwise or.
orls - Alias for orl.
orlu - Alias for orl.
overflow - principal op code: overflow gang predicate; arithmetic domain: logical; operation encoding group selector: exu-side operations;

p

pick - Pick between two values based on a condition.
pickup - principal op code: accept a speculative load; arithmetic domain: logical; operation encoding group selector: exu-side readers;

q

quantized - principal op code: left value with right quantum; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations; operation signature kind: belt operand from ops window, belt operand from ops windo

r

rd - principal op code: hardware reader; arithmetic domain: logical; operation encoding group selector: exu-side readers;
rdivd - Decimal float reciprocal dividide.
rdivf - Binary float reciprocal dividide.
rdivs - Signed integer reciprocal dividion. Helper operation for software division implementation.
rdivu - Unsigned integer reciprocal dividion. Helper operation for software division implementation.
recur - Pick between two values based on a condition value being a NaR or not.
refuse - principal op code: reject a speculative load; arithmetic domain: logical; operation encoding group selector: exu-side readers;
remd - Decimal float modulo.
remf - Binary float modulo.
rems - principal op code: divide for remainder; arithmetic domain: signed integer; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
remu - principal op code: divide for remainder; arithmetic domain: unsigned integer; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
rescue - Move belt items to the front of the belt.
resolve - principal op code: resolve a pointer as a data reference; arithmetic domain: logical; operation encoding group selector: exu-side operations; operation signature kind: belt operand from ops windo
retire - principal op code: minimum retire count pseudo-op, or the widths of the retirees; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
retn - principal op code: return from function; sense of condition: taken unconditionally; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
retnfl - principal op code: return from function; sense of condition: taken if false; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
retntr - principal op code: return from function; sense of condition: taken if true; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
reverse - Reverse the bit order.
reversep - Alias for reverse.
rootd - Decimal floating point square root in current rounding mode.
rootde - Decimal floating point square root in current rounding to even.
rootdfz - Decimal floating point square root in current rounding away from zero.
rootdn - Decimal floating point square root in current rounding to nearest.
rootdp - Decimal floating point square root in current rounding towards positive infinity.
rootdz - Decimal floating point square root in current rounding towards zero.
rootf - Floating point square root in current rounding mode.
rootfe - Floating point square root in current rounding to even.
rootffz - Floating point square root in current rounding away from zero.
rootfn - Floating point square root in current rounding to nearest.
rootfp - Floating point square root in current rounding towards positive infinity.
rootfz - Floating point square root in current rounding towards zero.
roots - principal op code: square root; arithmetic domain: signed integer; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
rootu - principal op code: square root; arithmetic domain: unsigned integer; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
rotate - principal op code: bitwise rotate; arithmetic domain: logical; operation encoding group selector: exu-side readers;
rotatel - Bit rotate left.
rotater - Bit rotate right.
rrootd - Decimal float reciprocal square root.
rrootf - Binary float reciprocal square root.
rroots - principal op code: reciprocal square root; arithmetic domain: signed integer; operation encoding group selector: exu-side operations;
rrootu - principal op code: reciprocal square root; arithmetic domain: unsigned integer; operation encoding group selector: exu-side operations;

s

s2fd - Signed integer to decimal float conversion. Current rounding mode.
s2fde - Signed integer to decimal float conversion. Rounding to even.
s2fdfz - Signed integer to decimal float conversion. Rounding away from zero.
s2fdn - Signed integer to decimal float conversion. Rounding towards negative infinity.
s2fdp - Signed integer to decimal float conversion. Rounding towards positive infinity.
s2fdz - Signed integer to decimal float conversion. Rounding towards zero.
s2ff - Signed integer to binary float conversion. Current rounding mode.
s2ffe - Signed integer to binary float conversion. Rounding to even.
s2fffz - Signed integer to binary float conversion. Rounding away from zero.
s2ffn - Signed integer to binary float conversion. Rounding towards negative infinity.
s2ffp - Signed integer to binary float conversion. Rounding towards positive infinity.
s2ffz - Signed integer to binary float conversion. Rounding towards zero.
s2u - Signed integer to unsigned integer.
s2us - Signed integer to unsigned integer. Saturating.
s2ux - Signed integer to unsigned integer. Excepting.
sameQuantumd - principal op code: same exponent; arithmetic domain: decimal floating point; operation encoding group selector: exu-side operations;
scaleBd - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: use current dynamic rounding mode; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBde - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: to nearest, ties toward even adjacent value; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
scaleBdfz - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: to nearest, ties away from zero; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBdn - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: toward negative infinity; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBdp - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: toward positive infinity; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBdz - principal op code: scale exponent; arithmetic domain: decimal floating point; rounding policy: toward zero; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
scaleBf - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: use current dynamic rounding mode; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBfe - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: to nearest, ties toward even adjacent value; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
scaleBffz - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: to nearest, ties away from zero; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBfn - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: toward negative infinity; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBfp - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: toward positive infinity; operation encoding group selector: exu-side operations; condition code generator: generate condition codes; operation signature kind: belt operand from ops window, belt operand from ops windo
scaleBfz - principal op code: scale exponent; arithmetic domain: binary floating point; rounding policy: toward zero; operation encoding group selector: exu-side operations; condition code generator: generate condition codes;
scratchf - principal op code: allocate scratchpad frame; arithmetic domain: logical; operation encoding group selector: exu-side readers;
set - Set a single indexed bit.
shiftl - Bitwise left shift.
shiftls - Alias for shiftl.
shiftlss - Signed bitwise left shift. Saturating.
shiftlssv - Alias for shiftlss.
shiftlsv - Alias for shiftl.
shiftlsw - Signed bitwise left shift. Widening.
shiftlswv - Signed bitwise vector left shift. Widening.
shiftlsx - Signed bitwise left shift. Excepting.
shiftlsxv - Alias for shiftlsx.
shiftlu - Alias for shiftl.
shiftlus - Unsigned bitwise left shift. Saturating.
shiftlusv - Alias for shiftlus.
shiftluv - Alias for shiftl.
shiftluw - Unsigned bitwise left shift. Widening.
shiftluwv - Unsigned bitwise vector left shift. Widening.
shiftlux - Unsigned bitwise left shift. Excepting.
shiftluxv - Alias for shiftlux.
shiftrs - Signed bit shift right.
shiftrsf - Signed fixed point shift right. Current dynamic rounding.
shiftrsfe - Signed fixed point shift right. Rounds towards nearest even.
shiftrsffz - Signed fixed point shift right. Rounds towards nearest away from zero.
shiftrsfn - Signed fixed point shift right. Rounds towards negative infinity.
shiftrsfp - Signed fixed point shift right. Rounds towards positive infinity.
shiftrsfz - Signed fixed point shift right. Rounds towards zero.
shiftru - Unsigned bit shift right.
shiftruf - Unsigned fixed point shift right. Current dynamic rounding.
shiftrufe - Unsigned fixed point shift right. Rounds towards nearest even.
shiftruffz - Unsigned fixed point shift right. Rounds towards nearest away from zero.
shiftrufn - Unsigned fixed point shift right. Rounds towards negative infinity.
shiftrufp - Unsigned fixed point shift right. Rounds towards positive infinity.
shiftrufz - Unsigned fixed point shift right. Rounds towards zero.
shuffle - Create a new vector where the elements are the values of the first operand vector and their respective positions in the second operand vector.
smeari - principal op code: smear first one to end of vector; arithmetic domain: logical; whether inclusive or exclusive of boundary: inclusive; operation encoding group selector: exu-side operations;
smearx - principal op code: smear first one to end of vector; arithmetic domain: logical; whether inclusive or exclusive of boundary: exclusive; operation encoding group selector: exu-side operations;
spill - principal op code: spill operand to extended scratchpad; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
splat - Duplicate a scalar value into a vector.
stackf - principal op code: allocate stack frame; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
store - principal op code: store to memory; arithmetic domain: logical; addressing base: register; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
stored - principal op code: store to memory; arithmetic domain: decimal floating point; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero or one constant bytes;
storef - principal op code: store to memory; arithmetic domain: binary floating point; addressing base: register; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes; operation signature kind: base special register, manifest constant, belt operand from opsWindow, scale factor for indexes in load/store/lea, late-evaluated operand from bel
storep - principal op code: store to memory; arithmetic domain: pointers; addressing base: register; operation encoding group selector: flow-side operations; possible manifest sizes in bytes: zero, one, two, or four constant bytes;
streamf - principal op code: allocate streamer frame; operation encoding group selector: flow-side operations;
sub - Normal unsigned substraction.
sub1u - Decrement by one.
subd - Decimal floating point subtraction in current rounding mode.
subde - Decimal floating point subtraction in current rounding to even.
subdfz - Decimal floating point subtraction in current rounding away from zero.
subdn - Decimal floating point subtraction in current rounding to nearest.
subdp - Decimal floating point subtraction in current rounding towards positive infinity.
subdz - Decimal floating point subtraction in current rounding towards zero.
subf - Floating point subtraction in current rounding mode.
subfe - Floating point subtraction in current rounding to even.
subffz - Floating point subtraction in current rounding away from zero.
subfn - Floating point subtraction in current rounding to nearest.
subfp - Floating point subtraction in current rounding towards positive infinity.
subfz - Floating point subtraction in current rounding towards zero.
subp - Pointer subtraction. Protects the upper 4 reserved bits, can be scaled for indexing.
subs - Alias for sub.
subss - Saturating signed integer subtraction.
subssv - Alias for subss.
subsv - Alias for sub.
subsw - Widening signed integer subtraction.
subswv - Widening signed integer vector subtraction.
subsx - Excepting signed integer subtraction.
subsxv - Alias for subsx.
subu - Alias for sub.
subus - Saturating unsigned integer subtraction.
subusv - Alias for subus.
subuv - Alias for sub.
subuw - Widening unsigned integer subtraction.
subuwv - Widening unsigned integer vector subtraction.
subux - Excepting unsigned integer subtraction.
subuxv - Alias for subux.

t

test - Test if a single indexed bit is set.

u

u2fd - Unsigned integer to decimal float conversion. Current rounding mode.
u2fde - Unsigned integer to decimal float conversion. Rounding to even.
u2fdfz - Unsigned integer to decimal float conversion. Rounding away from zero.
u2fdn - Unsigned integer to decimal float conversion. Rounding towards negative infinity.
u2fdp - Unsigned integer to decimal float conversion. Rounding towards positive infinity.
u2fdz - Unsigned integer to decimal float conversion. Rounding towards zero.
u2ff - Unsigned integer to binary float conversion. Current rounding mode.
u2ffe - Unsigned integer to binary float conversion. Rounding to even.
u2fffz - Unsigned integer to binary float conversion. Rounding away from zero.
u2ffn - Unsigned integer to binary float conversion. Rounding towards negative infinity.
u2ffp - Unsigned integer to binary float conversion. Rounding towards positive infinity.
u2ffz - Unsigned integer to binary float conversion. Rounding towards zero.
u2s - Unsigned integer to signed integer.
u2ss - Unsigned integer to signed integer. Saturating.
u2ssv - Alias for u2ss.
u2sv - Alias for u2s.
u2sw - Unsigned integer to signed integer. Widening.
u2swv - Unsigned integer vector to signed integer vectors. Widening.
u2sx - Unsigned integer to signed integer. Excepting.
u2sxv - Alias for u2sx.

v

vec - Create a new vector from the scalar operand list.

w

widen - Double the scalar width of an unsigned integer.
widend - Double the scalar width of a decimal float.
widendv - Double the scalar width of the elements of a decimal float vector.
widenf - Double the scalar width of a binary float.
widenfv - Double the scalar width of the elements of a binary float vector.
widens - Double the scalar width of a signed integer.
widensf - Double the scalar width of a signed fixed point value.
widensfv - Double the scalar widths in a signed fixed point vector.
widensv - Double the scalar widths in an signed integer vector.
widenu - Alias for widen.
widenuf - Double the scalar width of an unsigned fixed point value.
widenufv - Double the scalar widths in an unsigned fixed point vector.
widenuv - Alias for widenv.
widenv - Double the scalar widths in an unsigned integer vector.
wr - principal op code: hardware writer; arithmetic domain: logical; operation encoding group selector: exu-side writers;

x

xorl - Bitwise xor.
xorls - Alias for xorl.
xorlu - Alias for xorl.