Difference between revisions of "Instruction Set/f2sefp"
From Mill Computing Wiki
Line 15: | Line 15: | ||
! [[Cores|Core]] || [[Slot|In Slots]]|| [[Latency|Latencies]] | ! [[Cores|Core]] || [[Slot|In Slots]]|| [[Latency|Latencies]] | ||
|- | |- | ||
− | | [[Cores/Silver/Encoding# | + | | [[Cores/Silver/Encoding#f2sefp|Silver]] || E0 E1 || w:w=3 wv:wv=3 d:d=4 dv:dv=4 q:q=5 qv:qv=5 |
|- | |- | ||
− | | [[Cores/Gold/Encoding# | + | | [[Cores/Gold/Encoding#f2sefp|Gold]] || E0 E1 E2 E3 || w:w=3 wv:wv=3 d:d=4 dv:dv=4 q:q=5 qv:qv=5 |
|} | |} | ||
+ | |||
+ | |||
+ | [[Instruction_Set|Instruction Set, alphabetical]], [[Instruction Set by Category]], [http://millcomputing.com/instructions.html?collapse=7#ops Instruction Set, sortable, filterable] |
Revision as of 02:36, 16 December 2014
realizing exu stream exu block compute phase operation in the binary floating point value domain using modulo overflow behavior that produces condition codes
Exactly convert a binary floating point value to a signed integer, rounding toward positive infinity and normal modulo overflow.
operands: like Addf [ff:f]
Core | In Slots | Latencies |
---|---|---|
Silver | E0 E1 | w:w=3 wv:wv=3 d:d=4 dv:dv=4 q:q=5 qv:qv=5 |
Gold | E0 E1 E2 E3 | w:w=3 wv:wv=3 d:d=4 dv:dv=4 q:q=5 qv:qv=5 |
Instruction Set, alphabetical, Instruction Set by Category, Instruction Set, sortable, filterable