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0de26fd78e
Zlib-ng is zlib replacement with optimizations for "next generation" systems. Its optimization may benifits image library decode and encode speed such as libpng. In our tests, if using zlib-ng and libpng combination on a x86_64 machine with AVX2, the time of `imdecode` amd `imencode` will drop 20% approximately. This patch enables zlib-ng's optimization if `CV_DISABLE_OPTIMIZATION` is OFF. Since Zlib-ng can dispatch intrinsics on the fly, port work is much easier. Related discussion: https://github.com/opencv/opencv/issues/22573
108 lines
4.5 KiB
C
108 lines
4.5 KiB
C
/* crc32_fold_vpclmulqdq_tpl.h -- VPCMULQDQ-based CRC32 folding template.
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* Copyright Wangyang Guo (wangyang.guo@intel.com)
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* For conditions of distribution and use, see copyright notice in zlib.h
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*/
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#ifdef COPY
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static size_t fold_16_vpclmulqdq_copy(__m128i *xmm_crc0, __m128i *xmm_crc1,
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__m128i *xmm_crc2, __m128i *xmm_crc3, uint8_t *dst, const uint8_t *src, size_t len) {
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#else
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static size_t fold_16_vpclmulqdq(__m128i *xmm_crc0, __m128i *xmm_crc1,
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__m128i *xmm_crc2, __m128i *xmm_crc3, const uint8_t *src, size_t len,
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__m128i init_crc, int32_t first) {
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__m512i zmm_initial = _mm512_zextsi128_si512(init_crc);
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#endif
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__m512i zmm_t0, zmm_t1, zmm_t2, zmm_t3;
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__m512i zmm_crc0, zmm_crc1, zmm_crc2, zmm_crc3;
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__m512i z0, z1, z2, z3;
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size_t len_tmp = len;
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const __m512i zmm_fold4 = _mm512_set4_epi32(
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0x00000001, 0x54442bd4, 0x00000001, 0xc6e41596);
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const __m512i zmm_fold16 = _mm512_set4_epi32(
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0x00000001, 0x1542778a, 0x00000001, 0x322d1430);
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// zmm register init
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zmm_crc0 = _mm512_setzero_si512();
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zmm_t0 = _mm512_loadu_si512((__m512i *)src);
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#ifndef COPY
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XOR_INITIAL512(zmm_t0);
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#endif
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zmm_crc1 = _mm512_loadu_si512((__m512i *)src + 1);
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zmm_crc2 = _mm512_loadu_si512((__m512i *)src + 2);
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zmm_crc3 = _mm512_loadu_si512((__m512i *)src + 3);
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/* already have intermediate CRC in xmm registers
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* fold4 with 4 xmm_crc to get zmm_crc0
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*/
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zmm_crc0 = _mm512_inserti32x4(zmm_crc0, *xmm_crc0, 0);
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zmm_crc0 = _mm512_inserti32x4(zmm_crc0, *xmm_crc1, 1);
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zmm_crc0 = _mm512_inserti32x4(zmm_crc0, *xmm_crc2, 2);
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zmm_crc0 = _mm512_inserti32x4(zmm_crc0, *xmm_crc3, 3);
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z0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x01);
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zmm_crc0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x10);
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zmm_crc0 = _mm512_ternarylogic_epi32(zmm_crc0, z0, zmm_t0, 0x96);
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#ifdef COPY
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_mm512_storeu_si512((__m512i *)dst, zmm_t0);
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_mm512_storeu_si512((__m512i *)dst + 1, zmm_crc1);
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_mm512_storeu_si512((__m512i *)dst + 2, zmm_crc2);
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_mm512_storeu_si512((__m512i *)dst + 3, zmm_crc3);
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dst += 256;
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#endif
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len -= 256;
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src += 256;
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// fold-16 loops
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while (len >= 256) {
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zmm_t0 = _mm512_loadu_si512((__m512i *)src);
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zmm_t1 = _mm512_loadu_si512((__m512i *)src + 1);
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zmm_t2 = _mm512_loadu_si512((__m512i *)src + 2);
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zmm_t3 = _mm512_loadu_si512((__m512i *)src + 3);
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z0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold16, 0x01);
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z1 = _mm512_clmulepi64_epi128(zmm_crc1, zmm_fold16, 0x01);
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z2 = _mm512_clmulepi64_epi128(zmm_crc2, zmm_fold16, 0x01);
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z3 = _mm512_clmulepi64_epi128(zmm_crc3, zmm_fold16, 0x01);
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zmm_crc0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold16, 0x10);
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zmm_crc1 = _mm512_clmulepi64_epi128(zmm_crc1, zmm_fold16, 0x10);
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zmm_crc2 = _mm512_clmulepi64_epi128(zmm_crc2, zmm_fold16, 0x10);
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zmm_crc3 = _mm512_clmulepi64_epi128(zmm_crc3, zmm_fold16, 0x10);
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zmm_crc0 = _mm512_ternarylogic_epi32(zmm_crc0, z0, zmm_t0, 0x96);
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zmm_crc1 = _mm512_ternarylogic_epi32(zmm_crc1, z1, zmm_t1, 0x96);
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zmm_crc2 = _mm512_ternarylogic_epi32(zmm_crc2, z2, zmm_t2, 0x96);
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zmm_crc3 = _mm512_ternarylogic_epi32(zmm_crc3, z3, zmm_t3, 0x96);
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#ifdef COPY
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_mm512_storeu_si512((__m512i *)dst, zmm_t0);
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_mm512_storeu_si512((__m512i *)dst + 1, zmm_t1);
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_mm512_storeu_si512((__m512i *)dst + 2, zmm_t2);
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_mm512_storeu_si512((__m512i *)dst + 3, zmm_t3);
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dst += 256;
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#endif
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len -= 256;
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src += 256;
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}
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// zmm_crc[0,1,2,3] -> zmm_crc0
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z0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x01);
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zmm_crc0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x10);
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zmm_crc0 = _mm512_ternarylogic_epi32(zmm_crc0, z0, zmm_crc1, 0x96);
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z0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x01);
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zmm_crc0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x10);
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zmm_crc0 = _mm512_ternarylogic_epi32(zmm_crc0, z0, zmm_crc2, 0x96);
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z0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x01);
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zmm_crc0 = _mm512_clmulepi64_epi128(zmm_crc0, zmm_fold4, 0x10);
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zmm_crc0 = _mm512_ternarylogic_epi32(zmm_crc0, z0, zmm_crc3, 0x96);
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// zmm_crc0 -> xmm_crc[0, 1, 2, 3]
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*xmm_crc0 = _mm512_extracti32x4_epi32(zmm_crc0, 0);
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*xmm_crc1 = _mm512_extracti32x4_epi32(zmm_crc0, 1);
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*xmm_crc2 = _mm512_extracti32x4_epi32(zmm_crc0, 2);
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*xmm_crc3 = _mm512_extracti32x4_epi32(zmm_crc0, 3);
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return (len_tmp - len); // return n bytes processed
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}
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