dnl Alpha ev6 nails mpn_mul_1.
dnl Copyright 2002, 2005, 2006 Free Software Foundation, Inc.
dnl This file is part of the GNU MP Library.
dnl
dnl The GNU MP Library is free software; you can redistribute it and/or modify
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dnl * the GNU Lesser General Public License as published by the Free
dnl Software Foundation; either version 3 of the License, or (at your
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dnl or
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dnl * the GNU General Public License as published by the Free Software
dnl Foundation; either version 2 of the License, or (at your option) any
dnl later version.
dnl
dnl or both in parallel, as here.
dnl
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dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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dnl You should have received copies of the GNU General Public License and the
dnl GNU Lesser General Public License along with the GNU MP Library. If not,
dnl see https://www.gnu.org/licenses/.
include(`../config.m4')
C cycles/limb
C EV4: 42
C EV5: 18
C EV6: 3.25
C TODO
C * Reroll loop for 3.0 c/l with current 4-way unrolling.
C * The loop is overscheduled wrt loads and wrt multiplies, in particular
C umulh.
C * Use FP loop count and multiple exit points, that would simplify feed-in lp0
C and would work since the loop structure is really regular.
C INPUT PARAMETERS
define(`rp',`r16')
define(`up',`r17')
define(`n', `r18')
define(`vl0',`r19')
define(`numb_mask',`r6')
define(`m0a',`r0')
define(`m0b',`r1')
define(`m1a',`r2')
define(`m1b',`r3')
define(`m2a',`r20')
define(`m2b',`r21')
define(`m3a',`r22')
define(`m3b',`r23')
define(`acc0',`r25')
define(`acc1',`r27')
define(`ul0',`r4')
define(`ul1',`r5')
define(`ul2',`r4')
define(`ul3',`r5')
define(`rl0',`r24')
define(`rl1',`r24')
define(`rl2',`r24')
define(`rl3',`r24')
define(`t0',`r7')
define(`t1',`r8')
define(`NAIL_BITS',`GMP_NAIL_BITS')
define(`NUMB_BITS',`GMP_NUMB_BITS')
dnl This declaration is munged by configure
NAILS_SUPPORT(1-63)
ASM_START()
PROLOGUE(mpn_mul_1)
sll vl0, NAIL_BITS, vl0
lda numb_mask, -1(r31)
srl numb_mask, NAIL_BITS, numb_mask
and n, 3, r25
cmpeq r25, 1, r21
bne r21, L(1m4)
cmpeq r25, 2, r21
bne r21, L(2m4)
beq r25, L(0m4)
L(3m4): ldq ul3, 0(up)
lda n, -4(n)
ldq ul0, 8(up)
mulq vl0, ul3, m3a
umulh vl0, ul3, m3b
ldq ul1, 16(up)
lda up, 24(up)
lda rp, -8(rp)
mulq vl0, ul0, m0a
umulh vl0, ul0, m0b
bge n, L(ge3)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
srl m3a,NAIL_BITS, t0
addq t0, r31, acc1
srl m0a,NAIL_BITS, t0
addq t0, m3b, acc0
srl acc1,NUMB_BITS, t1
br r31, L(ta3)
L(ge3): ldq ul2, 0(up)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
srl m3a,NAIL_BITS, t0
ldq ul3, 8(up)
lda n, -4(n)
mulq vl0, ul2, m2a
addq t0, r31, acc1
umulh vl0, ul2, m2b
srl m0a,NAIL_BITS, t0
ldq ul0, 16(up)
mulq vl0, ul3, m3a
addq t0, m3b, acc0
srl acc1,NUMB_BITS, t1
br r31, L(el3)
L(0m4): lda n, -8(n)
ldq ul2, 0(up)
ldq ul3, 8(up)
mulq vl0, ul2, m2a
umulh vl0, ul2, m2b
ldq ul0, 16(up)
mulq vl0, ul3, m3a
umulh vl0, ul3, m3b
ldq ul1, 24(up)
lda up, 32(up)
mulq vl0, ul0, m0a
umulh vl0, ul0, m0b
bge n, L(ge4)
srl m2a,NAIL_BITS, t0
mulq vl0, ul1, m1a
addq t0, r31, acc0
umulh vl0, ul1, m1b
srl m3a,NAIL_BITS, t0
addq t0, m2b, acc1
srl acc0,NUMB_BITS, t1
br r31, L(ta4)
L(ge4): srl m2a,NAIL_BITS, t0
ldq ul2, 0(up)
mulq vl0, ul1, m1a
addq t0, r31, acc0
umulh vl0, ul1, m1b
srl m3a,NAIL_BITS, t0
ldq ul3, 8(up)
lda n, -4(n)
mulq vl0, ul2, m2a
addq t0, m2b, acc1
srl acc0,NUMB_BITS, t1
br r31, L(el0)
L(2m4): lda n, -4(n)
ldq ul0, 0(up)
ldq ul1, 8(up)
lda up, 16(up)
lda rp, -16(rp)
mulq vl0, ul0, m0a
umulh vl0, ul0, m0b
bge n, L(ge2)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
srl m0a,NAIL_BITS, t0
addq t0, r31, acc0
srl m1a,NAIL_BITS, t0
addq t0, m0b, acc1
srl acc0,NUMB_BITS, t1
br r31, L(ta2)
L(ge2): ldq ul2, 0(up)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
ldq ul3, 8(up)
lda n, -4(n)
mulq vl0, ul2, m2a
umulh vl0, ul2, m2b
srl m0a,NAIL_BITS, t0
ldq ul0, 16(up)
mulq vl0, ul3, m3a
addq t0, r31, acc0
umulh vl0, ul3, m3b
srl m1a,NAIL_BITS, t0
ldq ul1, 24(up)
lda up, 32(up)
lda rp, 32(rp)
mulq vl0, ul0, m0a
addq t0, m0b, acc1
srl acc0,NUMB_BITS, t1
bge n, L(el2)
br r31, L(ta6)
L(1m4): lda n, -4(n)
ldq ul1, 0(up)
lda up, 8(up)
lda rp, -24(rp)
bge n, L(ge1)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
srl m1a,NAIL_BITS, t0
addq t0, r31, acc1
and acc1,numb_mask, r28
srl acc1,NUMB_BITS, t1
stq r28, 24(rp)
addq t1, m1b, r0
ret r31, (r26), 1
L(ge1): ldq ul2, 0(up)
mulq vl0, ul1, m1a
umulh vl0, ul1, m1b
ldq ul3, 8(up)
lda n, -4(n)
mulq vl0, ul2, m2a
umulh vl0, ul2, m2b
ldq ul0, 16(up)
mulq vl0, ul3, m3a
umulh vl0, ul3, m3b
srl m1a,NAIL_BITS, t0
ldq ul1, 24(up)
lda up, 32(up)
lda rp, 32(rp)
mulq vl0, ul0, m0a
addq t0, r31, acc1
umulh vl0, ul0, m0b
srl m2a,NAIL_BITS, t0
mulq vl0, ul1, m1a
addq t0, m1b, acc0
srl acc1,NUMB_BITS, t1
blt n, L(ta5)
L(ge5): ldq ul2, 0(up)
br r31, L(el1)
ALIGN(16)
L(top): mulq vl0, ul0, m0a C U1
addq t0, m0b, acc1 C L0
srl acc0,NUMB_BITS, t1 C U0
stq r28, -24(rp) C L1
C
L(el2): umulh vl0, ul0, m0b C U1
and acc0,numb_mask, r28 C L0
unop C U0
unop C L1
C
unop C U1
addq t1, acc1, acc1 C L0
srl m2a,NAIL_BITS, t0 C U0
ldq ul2, 0(up) C L1
C
mulq vl0, ul1, m1a C U1
addq t0, m1b, acc0 C L0
srl acc1,NUMB_BITS, t1 C U0
stq r28, -16(rp) C L1
C
L(el1): umulh vl0, ul1, m1b C U1
and acc1,numb_mask, r28 C L0
unop C U0
lda n, -4(n) C L1
C
unop C U1
addq t1, acc0, acc0 C L0
srl m3a,NAIL_BITS, t0 C U0
ldq ul3, 8(up) C L1
C
mulq vl0, ul2, m2a C U1
addq t0, m2b, acc1 C L0
srl acc0,NUMB_BITS, t1 C U0
stq r28, -8(rp) C L1
C
L(el0): umulh vl0, ul2, m2b C U1
and acc0,numb_mask, r28 C L0
unop C U0
unop C L1
C
unop C U1
addq t1, acc1, acc1 C L0
srl m0a,NAIL_BITS, t0 C U0
ldq ul0, 16(up) C L1
C
mulq vl0, ul3, m3a C U1
addq t0, m3b, acc0 C L0
srl acc1,NUMB_BITS, t1 C U0
stq r28, 0(rp) C L1
C
L(el3): umulh vl0, ul3, m3b C U1
and acc1,numb_mask, r28 C L0
unop C U0
unop C L1
C
unop C U1
addq t1, acc0, acc0 C L0
srl m1a,NAIL_BITS, t0 C U0
ldq ul1, 24(up) C L1
C
lda up, 32(up) C L0
unop C U1
lda rp, 32(rp) C L1
bge n, L(top) C U0
L(end): mulq vl0, ul0, m0a
addq t0, m0b, acc1
srl acc0,NUMB_BITS, t1
stq r28, -24(rp)
L(ta6): umulh vl0, ul0, m0b
and acc0,numb_mask, r28
addq t1, acc1, acc1
srl m2a,NAIL_BITS, t0
mulq vl0, ul1, m1a
addq t0, m1b, acc0
srl acc1,NUMB_BITS, t1
stq r28, -16(rp)
L(ta5): umulh vl0, ul1, m1b
and acc1,numb_mask, r28
addq t1, acc0, acc0
srl m3a,NAIL_BITS, t0
addq t0, m2b, acc1
srl acc0,NUMB_BITS, t1
stq r28, -8(rp)
ALIGN(16)
L(ta4): and acc0,numb_mask, r28
addq t1, acc1, acc1
srl m0a,NAIL_BITS, t0
addq t0, m3b, acc0
srl acc1,NUMB_BITS, t1
stq r28, 0(rp)
unop
ALIGN(16)
L(ta3): and acc1,numb_mask, r28
addq t1, acc0, acc0
srl m1a,NAIL_BITS, t0
addq t0, m0b, acc1
srl acc0,NUMB_BITS, t1
stq r28, 8(rp)
unop
ALIGN(16)
L(ta2): and acc0,numb_mask, r28
addq t1, acc1, acc1
srl acc1,NUMB_BITS, t1
stq r28, 16(rp)
and acc1,numb_mask, r28
addq t1, m1b, r0
stq r28, 24(rp)
ret r31, (r26), 1
EPILOGUE()
ASM_END()