pqc/crypto_kem/kyber1024-90s/avx2/poly.c

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#include "align.h"
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#include "cbd.h"
#include "consts.h"
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#include "ntt.h"
#include "params.h"
#include "poly.h"
#include "reduce.h"
#include "symmetric.h"
#include <immintrin.h>
#include <stdint.h>
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_compress
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*
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* Description: Compression and subsequent serialization of a polynomial.
* The coefficients of the input polynomial are assumed to
* lie in the invertal [0,q], i.e. the polynomial must be reduced
* by PQCLEAN_KYBER102490S_AVX2_poly_reduce().
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*
* Arguments: - uint8_t *r: pointer to output byte array
* (of length KYBER_POLYCOMPRESSEDBYTES)
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* - const poly *a: pointer to input polynomial
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**************************************************/
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void PQCLEAN_KYBER102490S_AVX2_poly_compress(uint8_t r[160], const poly *restrict a) {
size_t i;
uint32_t low;
__m256i f0, f1;
__m128i t0, t1;
const __m256i v = _mm256_load_si256(&PQCLEAN_KYBER102490S_AVX2_qdata.vec[_16XV / 16]);
const __m256i shift1 = _mm256_set1_epi16(1 << 10);
const __m256i mask = _mm256_set1_epi16(31);
const __m256i shift2 = _mm256_set1_epi16((32 << 8) + 1);
const __m256i shift3 = _mm256_set1_epi32((1024 << 16) + 1);
const __m256i sllvdidx = _mm256_set1_epi64x(12);
const __m256i shufbidx = _mm256_set_epi8( 8, -1, -1, -1, -1, -1, 4, 3, 2, 1, 0, -1, 12, 11, 10, 9,
-1, 12, 11, 10, 9, 8, -1, -1, -1, -1, -1, 4, 3, 2, 1, 0);
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for (i = 0; i < KYBER_N / 32; i++) {
f0 = _mm256_load_si256(&a->vec[2 * i + 0]);
f1 = _mm256_load_si256(&a->vec[2 * i + 1]);
f0 = _mm256_mulhi_epi16(f0, v);
f1 = _mm256_mulhi_epi16(f1, v);
f0 = _mm256_mulhrs_epi16(f0, shift1);
f1 = _mm256_mulhrs_epi16(f1, shift1);
f0 = _mm256_and_si256(f0, mask);
f1 = _mm256_and_si256(f1, mask);
f0 = _mm256_packus_epi16(f0, f1);
f0 = _mm256_maddubs_epi16(f0, shift2); // a0 a1 a2 a3 b0 b1 b2 b3 a4 a5 a6 a7 b4 b5 b6 b7
f0 = _mm256_madd_epi16(f0, shift3); // a0 a1 b0 b1 a2 a3 b2 b3
f0 = _mm256_sllv_epi32(f0, sllvdidx);
f0 = _mm256_srlv_epi64(f0, sllvdidx);
f0 = _mm256_shuffle_epi8(f0, shufbidx);
t0 = _mm256_castsi256_si128(f0);
t1 = _mm256_extracti128_si256(f0, 1);
t0 = _mm_blendv_epi8(t0, t1, _mm256_castsi256_si128(shufbidx));
_mm_storeu_si128((__m128i *)&r[20 * i + 0], t0);
_mm_store_ss((float *)&low, _mm_castsi128_ps(t1));
r[20 * i + 16] = (uint8_t)low;
r[20 * i + 17] = (uint8_t)(low >> 0x08);
r[20 * i + 18] = (uint8_t)(low >> 0x10);
r[20 * i + 19] = (uint8_t)(low >> 0x18);
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}
}
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void PQCLEAN_KYBER102490S_AVX2_poly_decompress(poly *restrict r, const uint8_t a[160]) {
unsigned int i;
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int16_t h;
__m128i t;
__m256i f;
const __m256i q = _mm256_load_si256(&PQCLEAN_KYBER102490S_AVX2_qdata.vec[_16XQ / 16]);
const __m256i shufbidx = _mm256_set_epi8(9, 9, 9, 8, 8, 8, 8, 7, 7, 6, 6, 6, 6, 5, 5, 5,
4, 4, 4, 3, 3, 3, 3, 2, 2, 1, 1, 1, 1, 0, 0, 0);
const __m256i mask = _mm256_set_epi16(248, 1984, 62, 496, 3968, 124, 992, 31,
248, 1984, 62, 496, 3968, 124, 992, 31);
const __m256i shift = _mm256_set_epi16(128, 16, 512, 64, 8, 256, 32, 1024,
128, 16, 512, 64, 8, 256, 32, 1024);
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for (i = 0; i < KYBER_N / 16; i++) {
t = _mm_loadl_epi64((__m128i *)&a[10 * i + 0]);
h = (a[10 * i + 9] << 8) + a[10 * i + 8];
t = _mm_insert_epi16(t, h, 4);
f = _mm256_broadcastsi128_si256(t);
f = _mm256_shuffle_epi8(f, shufbidx);
f = _mm256_and_si256(f, mask);
f = _mm256_mullo_epi16(f, shift);
f = _mm256_mulhrs_epi16(f, q);
_mm256_store_si256(&r->vec[i], f);
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}
}
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/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_tobytes
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*
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* Description: Serialization of a polynomial in NTT representation.
* The coefficients of the input polynomial are assumed to
* lie in the invertal [0,q], i.e. the polynomial must be reduced
* by PQCLEAN_KYBER102490S_AVX2_poly_reduce(). The coefficients are orderd as output by
* PQCLEAN_KYBER102490S_AVX2_poly_ntt(); the serialized output coefficients are in bitreversed
* order.
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*
* Arguments: - uint8_t *r: pointer to output byte array
* (needs space for KYBER_POLYBYTES bytes)
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* - poly *a: pointer to input polynomial
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**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_tobytes(uint8_t r[KYBER_POLYBYTES], poly *a) {
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PQCLEAN_KYBER102490S_AVX2_ntttobytes_avx(r, a->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_frombytes
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*
* Description: De-serialization of a polynomial;
* inverse of PQCLEAN_KYBER102490S_AVX2_poly_tobytes
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*
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* Arguments: - poly *r: pointer to output polynomial
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* - const uint8_t *a: pointer to input byte array
* (of KYBER_POLYBYTES bytes)
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_frombytes(poly *r, const uint8_t a[KYBER_POLYBYTES]) {
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PQCLEAN_KYBER102490S_AVX2_nttfrombytes_avx(r->vec, a, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_frommsg
*
* Description: Convert 32-byte message to polynomial
*
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* Arguments: - poly *r: pointer to output polynomial
* - const uint8_t *msg: pointer to input message
**************************************************/
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void PQCLEAN_KYBER102490S_AVX2_poly_frommsg(poly *restrict r, const uint8_t msg[KYBER_INDCPA_MSGBYTES]) {
__m256i f, g0, g1, g2, g3, h0, h1, h2, h3;
const __m256i shift = _mm256_broadcastsi128_si256(_mm_set_epi32(0, 1, 2, 3));
const __m256i idx = _mm256_broadcastsi128_si256(_mm_set_epi8(15, 14, 11, 10, 7, 6, 3, 2, 13, 12, 9, 8, 5, 4, 1, 0));
const __m256i hqs = _mm256_set1_epi16((KYBER_Q + 1) / 2);
#define FROMMSG64(i) \
g3 = _mm256_shuffle_epi32(f,0x55*(i)); \
g3 = _mm256_sllv_epi32(g3,shift); \
g3 = _mm256_shuffle_epi8(g3,idx); \
g0 = _mm256_slli_epi16(g3,12); \
g1 = _mm256_slli_epi16(g3,8); \
g2 = _mm256_slli_epi16(g3,4); \
g0 = _mm256_srai_epi16(g0,15); \
g1 = _mm256_srai_epi16(g1,15); \
g2 = _mm256_srai_epi16(g2,15); \
g3 = _mm256_srai_epi16(g3,15); \
g0 = _mm256_and_si256(g0,hqs); /* 19 18 17 16 3 2 1 0 */ \
g1 = _mm256_and_si256(g1,hqs); /* 23 22 21 20 7 6 5 4 */ \
g2 = _mm256_and_si256(g2,hqs); /* 27 26 25 24 11 10 9 8 */ \
g3 = _mm256_and_si256(g3,hqs); /* 31 30 29 28 15 14 13 12 */ \
h0 = _mm256_unpacklo_epi64(g0,g1); \
h2 = _mm256_unpackhi_epi64(g0,g1); \
h1 = _mm256_unpacklo_epi64(g2,g3); \
h3 = _mm256_unpackhi_epi64(g2,g3); \
g0 = _mm256_permute2x128_si256(h0,h1,0x20); \
g2 = _mm256_permute2x128_si256(h0,h1,0x31); \
g1 = _mm256_permute2x128_si256(h2,h3,0x20); \
g3 = _mm256_permute2x128_si256(h2,h3,0x31); \
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_mm256_store_si256(&r->vec[0+2*(i)+0],g0); \
_mm256_store_si256(&r->vec[0+2*(i)+1],g1); \
_mm256_store_si256(&r->vec[8+2*(i)+0],g2); \
_mm256_store_si256(&r->vec[8+2*(i)+1],g3)
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f = _mm256_loadu_si256((__m256i *)msg);
FROMMSG64(0);
FROMMSG64(1);
FROMMSG64(2);
FROMMSG64(3);
}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_tomsg
*
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* Description: Convert polynomial to 32-byte message.
* The coefficients of the input polynomial are assumed to
* lie in the invertal [0,q], i.e. the polynomial must be reduced
* by PQCLEAN_KYBER102490S_AVX2_poly_reduce().
*
* Arguments: - uint8_t *msg: pointer to output message
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* - poly *a: pointer to input polynomial
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**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_tomsg(uint8_t msg[KYBER_INDCPA_MSGBYTES], poly *restrict a) {
unsigned int i;
uint32_t small;
__m256i f0, f1, g0, g1;
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const __m256i hq = _mm256_set1_epi16((KYBER_Q - 1) / 2);
const __m256i hhq = _mm256_set1_epi16((KYBER_Q - 1) / 4);
for (i = 0; i < KYBER_N / 32; i++) {
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f0 = _mm256_load_si256(&a->vec[2 * i + 0]);
f1 = _mm256_load_si256(&a->vec[2 * i + 1]);
f0 = _mm256_sub_epi16(hq, f0);
f1 = _mm256_sub_epi16(hq, f1);
g0 = _mm256_srai_epi16(f0, 15);
g1 = _mm256_srai_epi16(f1, 15);
f0 = _mm256_xor_si256(f0, g0);
f1 = _mm256_xor_si256(f1, g1);
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f0 = _mm256_sub_epi16(f0, hhq);
f1 = _mm256_sub_epi16(f1, hhq);
f0 = _mm256_packs_epi16(f0, f1);
small = _mm256_movemask_epi8(f0);
msg[4 * i + 0] = small;
msg[4 * i + 1] = small >> 16;
msg[4 * i + 2] = small >> 8;
msg[4 * i + 3] = small >> 24;
}
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}
/*************************************************
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* Name: PQCLEAN_KYBER102490S_AVX2_poly_getnoise_eta1
*
* Description: Sample a polynomial deterministically from a seed and a nonce,
* with output polynomial close to centered binomial distribution
* with parameter KYBER_ETA1
*
* Arguments: - poly *r: pointer to output polynomial
* - const uint8_t *seed: pointer to input seed
* (of length KYBER_SYMBYTES bytes)
* - uint8_t nonce: one-byte input nonce
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_getnoise_eta1(poly *r, const uint8_t seed[KYBER_SYMBYTES], uint8_t nonce) {
ALIGNED_UINT8(KYBER_ETA1 * KYBER_N / 4 + 32) buf; // +32 bytes as required by PQCLEAN_KYBER102490S_AVX2_poly_cbd_eta1
prf(buf.coeffs, KYBER_ETA1 * KYBER_N / 4, seed, nonce);
PQCLEAN_KYBER102490S_AVX2_poly_cbd_eta1(r, buf.vec);
}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_getnoise_eta2
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*
* Description: Sample a polynomial deterministically from a seed and a nonce,
* with output polynomial close to centered binomial distribution
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* with parameter KYBER_ETA2
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*
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* Arguments: - poly *r: pointer to output polynomial
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* - const uint8_t *seed: pointer to input seed
* (of length KYBER_SYMBYTES bytes)
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* - uint8_t nonce: one-byte input nonce
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**************************************************/
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void PQCLEAN_KYBER102490S_AVX2_poly_getnoise_eta2(poly *r, const uint8_t seed[KYBER_SYMBYTES], uint8_t nonce) {
ALIGNED_UINT8(KYBER_ETA2 * KYBER_N / 4) buf;
prf(buf.coeffs, KYBER_ETA2 * KYBER_N / 4, seed, nonce);
PQCLEAN_KYBER102490S_AVX2_poly_cbd_eta2(r, buf.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_ntt
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*
* Description: Computes negacyclic number-theoretic transform (NTT) of
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* a polynomial in place.
* Input coefficients assumed to be in normal order,
* output coefficients are in special order that is natural
* for the vectorization. Input coefficients are assumed to be
* bounded by q in absolute value, output coefficients are bounded
* by 16118 in absolute value.
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*
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* Arguments: - poly *r: pointer to in/output polynomial
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**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_ntt(poly *r) {
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PQCLEAN_KYBER102490S_AVX2_ntt_avx(r->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_invntt_tomont
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*
* Description: Computes inverse of negacyclic number-theoretic transform (NTT)
* of a polynomial in place;
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* Input coefficients assumed to be in special order from vectorized
* forward ntt, output in normal order. Input coefficients can be
* arbitrary 16-bit integers, output coefficients are bounded by 14870
* in absolute value.
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*
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* Arguments: - poly *a: pointer to in/output polynomial
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**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_invntt_tomont(poly *r) {
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PQCLEAN_KYBER102490S_AVX2_invntt_avx(r->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
void PQCLEAN_KYBER102490S_AVX2_poly_nttunpack(poly *r) {
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PQCLEAN_KYBER102490S_AVX2_nttunpack_avx(r->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_basemul_montgomery
*
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* Description: Multiplication of two polynomials in NTT domain.
* One of the input polynomials needs to have coefficients
* bounded by q, the other polynomial can have arbitrary
* coefficients. Output coefficients are bounded by 6656.
*
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* Arguments: - poly *r: pointer to output polynomial
* - const poly *a: pointer to first input polynomial
* - const poly *b: pointer to second input polynomial
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_basemul_montgomery(poly *r, const poly *a, const poly *b) {
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PQCLEAN_KYBER102490S_AVX2_basemul_avx(r->vec, a->vec, b->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_tomont
*
* Description: Inplace conversion of all coefficients of a polynomial
* from normal domain to Montgomery domain
*
* Arguments: - poly *r: pointer to input/output polynomial
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_tomont(poly *r) {
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PQCLEAN_KYBER102490S_AVX2_tomont_avx(r->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_reduce
*
* Description: Applies Barrett reduction to all coefficients of a polynomial
* for details of the Barrett reduction see comments in reduce.c
*
* Arguments: - poly *r: pointer to input/output polynomial
**************************************************/
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void PQCLEAN_KYBER102490S_AVX2_poly_reduce(poly *r) {
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PQCLEAN_KYBER102490S_AVX2_reduce_avx(r->vec, PQCLEAN_KYBER102490S_AVX2_qdata.vec);
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}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_add
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*
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* Description: Add two polynomials. No modular reduction
* is performed.
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*
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* Arguments: - poly *r: pointer to output polynomial
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* - const poly *a: pointer to first input polynomial
* - const poly *b: pointer to second input polynomial
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_add(poly *r, const poly *a, const poly *b) {
unsigned int i;
__m256i f0, f1;
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for (i = 0; i < KYBER_N / 16; i++) {
f0 = _mm256_load_si256(&a->vec[i]);
f1 = _mm256_load_si256(&b->vec[i]);
f0 = _mm256_add_epi16(f0, f1);
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_mm256_store_si256(&r->vec[i], f0);
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}
}
/*************************************************
* Name: PQCLEAN_KYBER102490S_AVX2_poly_sub
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*
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* Description: Subtract two polynomials. No modular reduction
* is performed.
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*
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* Arguments: - poly *r: pointer to output polynomial
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* - const poly *a: pointer to first input polynomial
* - const poly *b: pointer to second input polynomial
**************************************************/
void PQCLEAN_KYBER102490S_AVX2_poly_sub(poly *r, const poly *a, const poly *b) {
unsigned int i;
__m256i f0, f1;
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for (i = 0; i < KYBER_N / 16; i++) {
f0 = _mm256_load_si256(&a->vec[i]);
f1 = _mm256_load_si256(&b->vec[i]);
f0 = _mm256_sub_epi16(f0, f1);
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_mm256_store_si256(&r->vec[i], f0);
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}
}