MD-Bench/asm/unused/force.s
Rafael Ravedutti cf7ea1460c Update asm version to be integrated
Signed-off-by: Rafael Ravedutti <rafaelravedutti@gmail.com>
2021-11-08 22:31:58 +01:00

361 lines
19 KiB
ArmAsm

.intel_syntax noprefix
.text
.align 16,0x90
.globl computeForce
computeForce:
# parameter 1: rdi Parameter*
# parameter 2: rsi Atom*
# parameter 3: rdx Neighbor*
push rbp
push r12
push r13
push r14
push r15
push rbx
mov r9d, DWORD PTR [4+rsi] # r9d <- atom->Nlocal
vmovsd xmm2, QWORD PTR [72+rdi] # xmm2 <- param->cutforce
vmovsd xmm1, QWORD PTR [8+rdi] # xmm1 <- param->sigma6
vmovsd xmm0, QWORD PTR [rdi] # xmm0 <- param->epsilon
mov r13, QWORD PTR [64+rsi] # r13 <- atom->fx
mov r14, QWORD PTR [72+rsi] # r14 <- atom->fy
mov rdi, QWORD PTR [80+rsi] # rdi <- atom->fz
test r9d, r9d # atom->Nlocal <= 0
jle ..atom_loop_exit
xor r10d, r10d # r10d <- 0
mov ecx, r9d # ecx <- atom->Nlocal
xor r8d, r8d # r8d <- 0
mov r11d, 1 # r11d <- 1
xor eax, eax # eax <- 0
shr ecx, 1 # ecx <- atom->Nlocal >> 1
je ..zero_last_element # ecx == 0
# Init forces to zero loop (unroll factor = 2)
..init_force_loop:
mov QWORD PTR [r8+r13], rax # fx[i] <- 0
mov QWORD PTR [r8+r14], rax # fy[i] <- 0
mov QWORD PTR [r8+rdi], rax # fz[i] <- 0
mov QWORD PTR [8+r8+r13], rax # fx[i] <- 0
mov QWORD PTR [8+r8+r14], rax # fy[i] <- 0
mov QWORD PTR [8+r8+rdi], rax # fz[i] <- 0
add r8, 16 # i++
inc r10 # i++
cmp r10, rcx # i < Nlocal
jb ..init_force_loop
# Trick to make r11d contain value of last element to be zeroed plus 1
# Maybe we can directly put r10+10 here and zero r11d above, then remove the -1 below
lea r11d, DWORD PTR [1+r10+r10] # r11d <- i * 2 + 1
..zero_last_element:
lea ecx, DWORD PTR [-1+r11] # ecx <- i * 2
cmp ecx, r9d # i >= Nlocal
jae ..before_atom_loop
# Set last element to zero
movsxd r11, r11d # r11 <- i * 2
mov QWORD PTR [-8+r13+r11*8], rax # fx[i] <- 0
mov QWORD PTR [-8+r14+r11*8], rax # fy[i] <- 0
mov QWORD PTR [-8+rdi+r11*8], rax # fz[i] <- 0
# Initialize registers to be used within atom loop
..before_atom_loop:
vmulsd xmm15, xmm2, xmm2 # xmm15 <- cutforcesq
vmovdqu32 ymm18, YMMWORD PTR .L_2il0floatpacket.0[rip] # ymm18 <- [8, ...]
vmulsd xmm0, xmm0, QWORD PTR .L_2il0floatpacket.3[rip] # xmm0 <- 48 * epsilon
vmovdqu32 ymm17, YMMWORD PTR .L_2il0floatpacket.1[rip] # ymm17 <- [0..7]
vmovups zmm7, ZMMWORD PTR .L_2il0floatpacket.4[rip] # zmm7 <- [0.5, ...]
vbroadcastsd zmm16, xmm15 # zmm16 <- [cutforcesq, ...]
vbroadcastsd zmm15, xmm1 # zmm15 <- [param->sigma6, ...]
vbroadcastsd zmm14, xmm0 # zmm16 <- [48 * epsilon, ...]
movsxd r9, r9d # r9 <- atom->Nlocal
xor r10d, r10d # r10d <- 0 (i)
mov rcx, QWORD PTR [24+rdx] # rcx <- neighbor->numneigh
mov r11, QWORD PTR [8+rdx] # r11 <- neighbor->neighbors
movsxd r12, DWORD PTR [16+rdx] # r12 <- neighbor->maxneighs
mov rdx, QWORD PTR [16+rsi] # rdx <- atom->x
### AOS
xor eax, eax
### SOA
#mov rax, QWORD PTR [24+rsi] # rax <- atom->y
#mov rsi, QWORD PTR [32+rsi] # rsi <- atom->z
###
shl r12, 2 # r12 <- neighbor->maxneighs * 4
# Register spilling
mov QWORD PTR [-32+rsp], r9 # [-32+rsp] <- atom->Nlocal
mov QWORD PTR [-24+rsp], rcx # [-24+rsp] <- neighbor->numneigh
mov QWORD PTR [-16+rsp], r14 # [-16+rsp] <- atom->fy
mov QWORD PTR [-8+rsp], r13 # [-8+rsp] <- atom->fx
mov QWORD PTR [-40+rsp], r15 # [-40+rsp] <- r15
mov QWORD PTR [-48+rsp], rbx # [-48+rsp] <- rbx
..atom_loop_begin:
mov rcx, QWORD PTR [-24+rsp] # rcx <- neighbor->numneigh
vxorpd xmm25, xmm25, xmm25 # xmm25 <- 0
vmovapd xmm20, xmm25 # xmm20 <- 0
mov r13d, DWORD PTR [rcx+r10*4] # r13d <- neighbor->numneigh[i] (numneighs)
vmovapd xmm4, xmm20 # xmm4 <- 0
### AOS
vmovsd xmm8, QWORD PTR[rdx+rax] # xmm8 <- atom->x[i * 3]
vmovsd xmm9, QWORD PTR[8+rdx+rax] # xmm9 <- atom->x[i * 3 + 1]
vmovsd xmm10, QWORD PTR[16+rdx+rax] # xmm10 <- atom->x[i * 3 + 2]
### SOA
#vmovsd xmm8, QWORD PTR [rdx+r10*8] # xmm8 <- atom->x[i]
#vmovsd xmm9, QWORD PTR [rax+r10*8] # xmm9 <- atom->y[i]
#vmovsd xmm10, QWORD PTR [rsi+r10*8] # xmm10 <- atom->z[i]
###
vbroadcastsd zmm0, xmm8 # zmm0 <- atom_x(i)
vbroadcastsd zmm1, xmm9 # zmm1 <- atom_y(i)
vbroadcastsd zmm2, xmm10 # zmm2 <- atom_z(i)
test r13d, r13d # numneighs <= 0
jle ..atom_loop_exit
vpxord zmm13, zmm13, zmm13 # zmm13 <- 0 (fix)
vmovaps zmm12, zmm13 # zmm12 <- 0 (fiy)
vmovaps zmm11, zmm12 # zmm11 <- 0 (fiz)
mov rcx, r12
imul rcx, r10
add rcx, r11 # rcx <- &neighbor->neighbors[neighbor->maxneighs * i (r10)]
xor r11d, r11d # r11d <- 0
mov r14d, r13d # r14d <- numneighs
cmp r14d, 8
jl ..compute_forces_remainder
# and r14d, -8 # r14d <- numneighs & (-8)
# lea r9d, DWORD PTR [8+r11] # r9d <- 8 (why lea?)
# cmp r14d, r9d # r14d < r9d
# jl ..B1.33
# cmp r13d, 8 # numneighs < 8
# jl ..B1.32
#..B1.11:
# cmp r13d, 1200 # numneighs < 1200
# jl ..B1.31
#..B1.12:
# mov r9, rcx # r9 <- neighs
# and r9, 63 # r9 <- neighs & 63
# test r9d, 3 # (r9d & 3) == 0 => r9d divisible by 8
# je ..B1.14
#..B1.13:
# xor r9d, r9d # r9d <- 0
# jmp ..B1.16
#..B1.14:
# test r9d, r9d # r9d == 0
# je ..B1.16
#..B1.15:
# neg r9d
# add r9d, 64
# shr r9d, 2 # r9d <- (64 - r9d) / 4
# cmp r13d, r9d # numneighs < r9d
# cmovl r9d, r13d # r9d <- MIN(numneighs, r9d)
#..B1.16:
# mov ebx, r13d
# sub ebx, r9d
# and ebx, 7
# neg ebx
# add ebx, r13d # ebx <- -((numneighs - r9d) & 7) + numneighs
# cmp r9d, 1 # r9d < 1
# jb ..B1.20
#..B1.20:
# lea ecx, DWORD PTR [8+r9] # ecx <- r9d[1]
# cmp ebx, ecx # -((numneighs - r9d) & 7) + numneighs < neighs
# jl ..B1.24
..compute_forces:
vpcmpeqb k1, xmm0, xmm0
vpcmpeqb k2, xmm0, xmm0
vpcmpeqb k3, xmm0, xmm0
vmovdqu ymm3, YMMWORD PTR [rcx+r11*4]
vpxord zmm5, zmm5, zmm5
vpxord zmm6, zmm6, zmm6
### AOS
vpaddd ymm4, ymm3, ymm3
vpaddd ymm3, ymm3, ymm4
vpxord zmm4, zmm4, zmm4
vgatherdpd zmm4{k1}, QWORD PTR [rdx+ymm3*8]
vgatherdpd zmm5{k2}, QWORD PTR [8+rdx+ymm3*8]
vgatherdpd zmm6{k3}, QWORD PTR [16+rdx+ymm3*8]
### SOA
#vpxord zmm4, zmm4, zmm4
#vgatherdpd zmm5{k2}, QWORD PTR [rax+ymm3*8]
#vgatherdpd zmm4{k1}, QWORD PTR [rdx+ymm3*8]
#vgatherdpd zmm6{k3}, QWORD PTR [rsi+ymm3*8]
###
vsubpd zmm29, zmm1, zmm5 # zmm29 <- atom_y(i) - atom_y(j) -- dely
vsubpd zmm28, zmm0, zmm4 # zmm28 <- atom_x(i) - atom_x(j) -- delx
vsubpd zmm31, zmm2, zmm6 # zmm31 <- atom_z(i) - atom_z(j) -- delz
vmulpd zmm20, zmm29, zmm29 # zmm20 <- dely * dely
vfmadd231pd zmm20, zmm28, zmm28 # zmm20 <- dely * dely + delx * delx
vfmadd231pd zmm20, zmm31, zmm31 # zmm20 <- zmm20 + delz * delz -- rsq
# Cutoff radius condition
vrcp14pd zmm27, zmm20 # zmm27 <- 1.0 / rsq (sr2)
vcmppd k5, zmm20, zmm16, 1 # k5 <- rsq < cutforcesq
vmulpd zmm22, zmm27, zmm15 # zmm22 <- sr2 * sigma6
vmulpd zmm24, zmm27, zmm14 # zmm24 <- 48.0 * epsilon * sr2
vmulpd zmm25, zmm27, zmm22 # zmm25 <- sr2 * sigma6 * sr2
vmulpd zmm23, zmm27, zmm25 # zmm23 <- sr2 * sigma6 * sr2 * sr2
vfmsub213pd zmm27, zmm25, zmm7 # zmm27 <- sr2 * sigma * sr2 * sr2 - 0.5
vmulpd zmm26, zmm23, zmm24 # zmm26 <- 48.0 * epsilon * sr2 * sr2 * sigma6 * sr2
vmulpd zmm30, zmm26, zmm27 # zmm30 <- force
vfmadd231pd zmm13{k5}, zmm30, zmm28 # fix += force * delx
vfmadd231pd zmm12{k5}, zmm30, zmm29 # fiy += force * dely
vfmadd231pd zmm11{k5}, zmm30, zmm31 # fiz += force * delz
sub r14, 8
add r11, 8
cmp r14, 8
jg ..compute_forces
# Check if there are remaining neighbors to be computed
..compute_forces_remainder:
cmp r14, 1
jl ..sum_up_forces
vpbroadcastd ymm0, r14d
vpcmpgtd k1, ymm0, ymm17
kmovw r15d, k1
vmovdqu ymm3{k3}{z}, YMMWORD PTR [rcx+r11*4]
kmov k2, k1
kmov k3, k1
vpxord zmm5, zmm5, zmm5
vpxord zmm6, zmm6, zmm6
### AOS
vpaddd ymm4, ymm3, ymm3
vpaddd ymm3, ymm3, ymm4
vpxord zmm4, zmm4, zmm4
vgatherdpd zmm4{k1}, QWORD PTR [rdx+ymm3*8]
vgatherdpd zmm5{k2}, QWORD PTR [8+rdx+ymm3*8]
vgatherdpd zmm6{k3}, QWORD PTR [16+rdx+ymm3*8]
### SOA
#vpxord zmm4, zmm4, zmm4
#vgatherdpd zmm5{k2}, QWORD PTR [rax+ymm3*8]
#vgatherdpd zmm4{k1}, QWORD PTR [rdx+ymm3*8]
#vgatherdpd zmm6{k3}, QWORD PTR [rsi+ymm3*8]
###
vsubpd zmm29, zmm1, zmm5 # zmm29 <- atom_y(i) - atom_y(j) -- dely
vsubpd zmm28, zmm0, zmm4 # zmm28 <- atom_x(i) - atom_x(j) -- delx
vsubpd zmm31, zmm2, zmm6 # zmm31 <- atom_z(i) - atom_z(j) -- delz
vmulpd zmm20, zmm29, zmm29 # zmm20 <- dely * dely
vfmadd231pd zmm20, zmm28, zmm28 # zmm20 <- dely * dely + delx * delx
vfmadd231pd zmm20, zmm31, zmm31 # zmm20 <- zmm20 + delz * delz -- rsq
# Cutoff radius condition
vrcp14pd zmm27, zmm20 # zmm27 <- 1.0 / rsq (sr2)
vcmppd k5, zmm20, zmm16, 1 # k5 <- rsq < cutforcesq
kmovw r9d, k5 # r9d <- rsq < cutforcesq
and r15d, r9d # r15d <- rsq < cutforcesq && k < numneighs
kmovw k3, r15d # k3 <- rsq < cutforcesq && k < numneighs
vmulpd zmm22, zmm27, zmm15 # zmm22 <- sr2 * sigma6
vmulpd zmm24, zmm27, zmm14 # zmm24 <- 48.0 * epsilon * sr2
vmulpd zmm25, zmm27, zmm22 # zmm25 <- sr2 * sigma6 * sr2
vmulpd zmm23, zmm27, zmm25 # zmm23 <- sr2 * sigma6 * sr2 * sr2
vfmsub213pd zmm27, zmm25, zmm7 # zmm27 <- sr2 * sigma * sr2 * sr2 - 0.5
vmulpd zmm26, zmm23, zmm24 # zmm26 <- 48.0 * epsilon * sr2 * sr2 * sigma6 * sr2
vmulpd zmm30, zmm26, zmm27 # zmm30 <- force
vfmadd231pd zmm13{k5}, zmm30, zmm28 # fix += force * delx
vfmadd231pd zmm12{k5}, zmm30, zmm29 # fiy += force * dely
vfmadd231pd zmm11{k5}, zmm30, zmm31 # fiz += force * delz
# Forces are currently separated in different lanes of zmm registers, hence it is necessary to permutate
# and add them (reduction) to obtain the final contribution for the current atom
..sum_up_forces:
vmovups zmm10, ZMMWORD PTR .L_2il0floatpacket.6[rip]
vpermd zmm0, zmm10, zmm11
vpermd zmm5, zmm10, zmm12
vpermd zmm21, zmm10, zmm13
vaddpd zmm11, zmm0, zmm11
vaddpd zmm12, zmm5, zmm12
vaddpd zmm13, zmm21, zmm13
vpermpd zmm1, zmm11, 78
vpermpd zmm6, zmm12, 78
vpermpd zmm22, zmm13, 78
vaddpd zmm2, zmm11, zmm1
vaddpd zmm8, zmm12, zmm6
vaddpd zmm23, zmm13, zmm22
vpermpd zmm3, zmm2, 177
vpermpd zmm9, zmm8, 177
vpermpd zmm24, zmm23, 177
vaddpd zmm4, zmm2, zmm3
vaddpd zmm20, zmm8, zmm9
vaddpd zmm25, zmm23, zmm24
..atom_loop_exit:
mov rcx, QWORD PTR [-8+rsp] #84.9[spill]
mov rbx, QWORD PTR [-16+rsp] #85.9[spill]
### AOS
add rax, 24
###
vaddsd xmm0, xmm25, QWORD PTR [rcx+r10*8] #84.9
vmovsd QWORD PTR [rcx+r10*8], xmm0 #84.9
vaddsd xmm1, xmm20, QWORD PTR [rbx+r10*8] #85.9
vmovsd QWORD PTR [rbx+r10*8], xmm1 #85.9
vaddsd xmm2, xmm4, QWORD PTR [rdi+r10*8] #86.9
vmovsd QWORD PTR [rdi+r10*8], xmm2 #86.9
inc r10 #55.5
cmp r10, QWORD PTR [-32+rsp] #55.5[spill]
jb ..atom_loop_begin
vzeroupper #93.12
vxorpd xmm0, xmm0, xmm0 #93.12
pop rbx
pop r15
pop r14 #93.12
pop r13 #93.12
pop r12 #93.12
pop rbp #93.12
ret #93.12
.type computeForce,@function
.size computeForce,.-computeForce
..LNcomputeForce.0:
.data
# -- End computeForce
.section .rodata, "a"
.align 64
.align 64
.L_2il0floatpacket.2:
.long 0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000,0x00000000,0x3ff00000
.type .L_2il0floatpacket.2,@object
.size .L_2il0floatpacket.2,64
.align 64
.L_2il0floatpacket.4:
.long 0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000,0x00000000,0x3fe00000
.type .L_2il0floatpacket.4,@object
.size .L_2il0floatpacket.4,64
.align 64
.L_2il0floatpacket.6:
.long 0x00000008,0x00000009,0x0000000a,0x0000000b,0x0000000c,0x0000000d,0x0000000e,0x0000000f,0x00000008,0x00000009,0x0000000a,0x0000000b,0x0000000c,0x0000000d,0x0000000e,0x0000000f
.type .L_2il0floatpacket.6,@object
.size .L_2il0floatpacket.6,64
.align 32
.L_2il0floatpacket.0:
.long 0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008,0x00000008
.type .L_2il0floatpacket.0,@object
.size .L_2il0floatpacket.0,32
.align 32
.L_2il0floatpacket.1:
.long 0x00000000,0x00000001,0x00000002,0x00000003,0x00000004,0x00000005,0x00000006,0x00000007
.type .L_2il0floatpacket.1,@object
.size .L_2il0floatpacket.1,32
.align 8
.L_2il0floatpacket.3:
.long 0x00000000,0x40480000
.type .L_2il0floatpacket.3,@object
.size .L_2il0floatpacket.3,8
.align 8
.L_2il0floatpacket.5:
.long 0x00000000,0x3ff00000
.type .L_2il0floatpacket.5,@object
.size .L_2il0floatpacket.5,8
.data
.section .note.GNU-stack, ""
# End