Searched refs:multiply (Results 1 – 19 of 19) sorted by relevance
| /arch/metag/lib/ |
| D | muldi3.S | 3 ! 64-bit multiply routine.
7 ! 64-bit signed/unsigned multiply
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| /arch/m68k/ifpsp060/ |
| D | ilsp.doc | 34 module can be used to emulate 64-bit divide and multiply,
78 For example, to use a 64-bit multiply instruction,
81 for unsigned multiply could look like:
90 bsr.l _060LISP_TOP+0x18 # branch to multiply routine
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| D | isp.doc | 42 64-bit multiply
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| /arch/openrisc/ |
| D | Kconfig | 91 bool "Have instruction l.mul for hardware multiply"
94 Select this if your implementation has a hardware multiply instruction
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| /arch/c6x/lib/ |
| D | mpyll.S | 22 ;; 64x64 multiply
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| /arch/nios2/kernel/ |
| D | insnemu.S | 224 bne r7, zero, multiply
418 multiply: label
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| /arch/powerpc/lib/ |
| D | div64.S | 45 mulhwu r9,r11,r4 # multiply the estimate by the divisor,
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| /arch/m68k/fpsp040/ |
| D | decbin.S | 472 | same sign. If the exp was pos then multiply fp1*fp0;
483 beqs mul |if clear, go to multiply
488 fmulx %fp1,%fp0 |exp is positive, so multiply by exp
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| D | setox.S | 567 fmulx SCALE(%a6),%fp0 | ...multiply 2^(M)
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| /arch/powerpc/boot/ |
| D | div64.S | 45 mulhwu r9,r11,r4 # multiply the estimate by the divisor,
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| /arch/m68k/ifpsp060/src/ |
| D | ilsp.S | 452 # multiply hi,lo words of each factor to get 4 intermediate products
485 # 64-bit multiply instruction. #
499 # Perform the multiply in pieces using 16x16->32 unsigned #
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| D | fpsp.S | 962 # multiply operation is the smallest possible normalized number
9627 # for the multiply to work. Therefore, we're going to actually do a
11547 # For norms/denorms, scale the exponents such that a multiply #
11628 fmul.x FP_SCR0(%a6),%fp0 # execute multiply
11651 # - the result of the multiply operation is an overflow.
11652 # - do the multiply to the proper precision and rounding mode in order to
11655 # - if overflow or inexact is enabled, we need a multiply result rounded to
11658 # multiply using extended precision and the correct rounding mode. the result
11668 fmul.x FP_SCR0(%a6),%fp0 # execute multiply
11762 # - the result of the multiply operation is an underflow.
[all …]
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| D | fplsp.S | 7203 fmul.x SCALE(%a6),%fp0 # multiply 2^(M)
9267 # the multiply factor that we're trying to create should be a denorm
9269 # multiply with a denorm which will cause an unimplemented data type
9293 # create an fp multiply that will create the result.
9308 fmul.x (%sp)+,%fp0 # do the multiply
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| D | pfpsp.S | 961 # multiply operation is the smallest possible normalized number
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| /arch/cris/arch-v10/kernel/ |
| D | entry.S | 205 pop $mof ; multiply overflow register
219 pop $mof ; multiply overflow register
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| /arch/arc/mm/ |
| D | tlbex.S | 232 ; multiply in step (3) above avoided by shifting lesser in step (1)
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| /arch/x86/crypto/ |
| D | sha1_ssse3_asm.S | 87 shl $6, CNT # multiply by 64
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| D | aesni-intel_asm.S | 672 # multiply TMP5 * HashKey using karatsuba
880 # multiply TMP5 * HashKey using karatsuba
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| /arch/x86/math-emu/ |
| D | README | 59 (1) Add, subtract, and multiply. Nothing remarkable in these.
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