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FFmpeg/libavcodec/riscv/lpc_rvv.S
Rémi Denis-Courmont 918b3ed2d5 lavc/lpc: R-V V compute_autocorr
The loop iterates over the length of the vector, not the order. This is
to avoid reloading the same data for each lag value. However this means
the loop only works if the maximum order is no larger than VLENB.

The loop is roughly equivalent to:

    for (size_t j = 0; j < lag; j++)
        autoc[j] = 1.;

    while (len > lag) {
        for (ptrdiff_t j = 0; j < lag; j++)
            autoc[j] += data[j] * *data;
        data++;
        len--;
    }

    while (len > 0) {
        for (ptrdiff_t j = 0; j < len; j++)
            autoc[j] += data[j] * *data;
        data++;
        len--;
    }

Since register pressure is only at 50%, it should be possible to implement
the same loop for order up to 2xVLENB. But this is left for future work.

Performance numbers are all over the place from ~1.25x to ~4x speedups,
but at least they are always noticeably better than nothing.
2023-12-16 11:18:01 +02:00

118 lines
3.6 KiB
ArmAsm

/*
* Copyright © 2023 Rémi Denis-Courmont.
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "libavutil/riscv/asm.S"
#if __riscv_xlen >= 64
func ff_lpc_apply_welch_window_rvv, zve64d
vsetvli t0, zero, e64, m8, ta, ma
vid.v v0
addi t2, a1, -1
vfcvt.f.xu.v v0, v0
li t3, 2
fcvt.d.l ft2, t2
srai t1, a1, 1
fcvt.d.l ft3, t3
li t4, 1
fdiv.d ft0, ft3, ft2 # ft0 = c = 2. / (len - 1)
fcvt.d.l fa1, t4 # fa1 = 1.
fsub.d ft1, ft0, fa1
vfrsub.vf v0, v0, ft1 # v0[i] = c - i - 1.
1:
vsetvli t0, t1, e64, m8, ta, ma
vfmul.vv v16, v0, v0 # no fused multipy-add as v0 is reused
sub t1, t1, t0
vle32.v v8, (a0)
fcvt.d.l ft2, t0
vfrsub.vf v16, v16, fa1 # v16 = 1. - w * w
sh2add a0, t0, a0
vsetvli zero, zero, e32, m4, ta, ma
vfwcvt.f.x.v v24, v8
vsetvli zero, zero, e64, m8, ta, ma
vfsub.vf v0, v0, ft2 # v0 -= vl
vfmul.vv v8, v24, v16
vse64.v v8, (a2)
sh3add a2, t0, a2
bnez t1, 1b
andi t1, a1, 1
beqz t1, 2f
sd zero, (a2)
addi a0, a0, 4
addi a2, a2, 8
2:
vsetvli t0, zero, e64, m8, ta, ma
vid.v v0
srai t1, a1, 1
vfcvt.f.xu.v v0, v0
fcvt.d.l ft1, t1
fsub.d ft1, ft0, ft1 # ft1 = c - (len / 2)
vfadd.vf v0, v0, ft1 # v0[i] = c - (len / 2) + i
3:
vsetvli t0, t1, e64, m8, ta, ma
vfmul.vv v16, v0, v0
sub t1, t1, t0
vle32.v v8, (a0)
fcvt.d.l ft2, t0
vfrsub.vf v16, v16, fa1 # v16 = 1. - w * w
sh2add a0, t0, a0
vsetvli zero, zero, e32, m4, ta, ma
vfwcvt.f.x.v v24, v8
vsetvli zero, zero, e64, m8, ta, ma
vfadd.vf v0, v0, ft2 # v0 += vl
vfmul.vv v8, v24, v16
vse64.v v8, (a2)
sh3add a2, t0, a2
bnez t1, 3b
ret
endfunc
func ff_lpc_compute_autocorr_rvv, zve64d
li t0, 1
vsetvli zero, a2, e64, m8, ta, ma
fcvt.d.l ft0, t0
vle64.v v0, (a0)
sh3add a0, a2, a0 # data += lag
vfmv.v.f v16, ft0
bge a2, a1, 2f
1:
vfmv.f.s ft0, v0
fld ft1, (a0) # ft1 = data[lag + i]
vfmacc.vf v16, ft0, v0 # v16[j] += data[i] * data[i + j]
addi a1, a1, -1
vfslide1down.vf v0, v0, ft1
addi a0, a0, 8
bgt a1, a2, 1b # while (len > lag);
2:
vfmv.f.s ft0, v0
vsetvli zero, a1, e64, m8, tu, ma
vfmacc.vf v16, ft0, v0
addi a1, a1, -1
vslide1down.vx v0, v0, zero
bnez a1, 2b # while (len > 0);
vsetvli zero, a2, e64, m8, ta, ma
vse64.v v16, (a3)
ret
endfunc
#endif