#ifndef POLY_H #define POLY_H #include "SABER_params.h" #include #include typedef union { uint16_t coeffs[SABER_N]; __m256i dummy; } poly; typedef union { uint16_t coeffs[4 * SABER_N]; __m256i dummy; } toom4_points; typedef union { uint16_t coeffs[8 * SABER_N]; __m256i dummy; } toom4_points_product; void PQCLEAN_FIRESABER_AVX2_MatrixVectorMul(poly c[SABER_L], const poly A[SABER_L][SABER_L], const toom4_points s_eval[SABER_L], int transpose); void PQCLEAN_FIRESABER_AVX2_InnerProd(poly *c, const poly b[SABER_L], const toom4_points s_eval[SABER_L]); void PQCLEAN_FIRESABER_AVX2_GenMatrix(poly a[SABER_L][SABER_L], const uint8_t seed[SABER_SEEDBYTES]); void PQCLEAN_FIRESABER_AVX2_GenSecret(poly s[SABER_L], const uint8_t seed[SABER_NOISESEEDBYTES]); void PQCLEAN_FIRESABER_AVX2_toom4_interp(poly *res_avx, const toom4_points_product *c_eval); void PQCLEAN_FIRESABER_AVX2_toom4_eval(toom4_points *b_eval, const poly *b); void PQCLEAN_FIRESABER_AVX2_toom4_mul_A_by_B_eval(toom4_points_product *c_eval, const poly *a_avx, const toom4_points *b_eval, int accumulate); #endif