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September 3, 2016 03:45
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gf-complete SIMD test results (prior to runtime detection)
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| Compiling with NO SIMD support...SUCCESS | |
| Compiling with FULL SIMD support...SUCCESS |
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Learn more about bidirectional Unicode characters
| Compiling with NO SIMD support...SUCCESS | |
| Compiling with FULL SIMD support...SUCCESS |
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Learn more about bidirectional Unicode characters
| Compiling with NO SIMD support...SUCCESS | |
| Compiling with SSE2 onlySUCCESS | |
| Compiling with SSE2,SSE3 only...SUCCESS | |
| Compiling with SSE2,SSE3,SSSE3 only...SUCCESS | |
| Compiling with SSE2,SSE3,SSSE3,SSE4_1 only...SUCCESS | |
| Compiling with SSE2,SSE3,SSSE3,SSE4_2 only...SUCCESS | |
| Compiling with FULL SIMD support...SUCCESS |
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Learn more about bidirectional Unicode characters
| w=128: - | |
| w=128: -m SHIFT - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SHIFT -d EUCLID - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 8 - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 8 -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region_alt | |
| extract_word = gf_w128_composite_extract_word | |
| w=64: - | |
| w=64: -m SHIFT - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SHIFT -d EUCLID - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region_neon | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region_neon | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region_neon | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region_neon | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r ALTMAP - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 8 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 8 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region_alt | |
| extract_word = gf_w64_composite_extract_word | |
| w=32: - | |
| w=32: -m SHIFT - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -r CAUCHY - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m COMPOSITE 2 - - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region_alt | |
| extract_word = gf_w32_composite_extract_word | |
| w=16: - | |
| w=16: -m SHIFT - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -r CAUCHY - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m COMPOSITE 2 - - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region_alt | |
| extract_word = gf_w16_composite_extract_word | |
| w=8: - | |
| w=8: -m SHIFT - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -r CAUCHY - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_double_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_double_table_lazy_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d MATRIX - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d EUCLID - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r CAUCHY - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -r CAUCHY - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m COMPOSITE 2 - - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region_alt | |
| extract_word = gf_w8_composite_extract_word | |
| w=4: - | |
| w=4: -m SHIFT - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -r CAUCHY - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_double_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_quad_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d MATRIX - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d EUCLID - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_quad_table_lazy_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d MATRIX - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d EUCLID - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r CAUCHY - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -r CAUCHY - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word |
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| w=128: - | |
| w=128: -m SHIFT - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SHIFT -d EUCLID - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 8 - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 8 -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region_alt | |
| extract_word = gf_w128_composite_extract_word | |
| w=64: - | |
| w=64: -m SHIFT - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SHIFT -d EUCLID - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 8 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 8 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region_alt | |
| extract_word = gf_w64_composite_extract_word | |
| w=32: - | |
| w=32: -m SHIFT - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -r CAUCHY - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region_neon | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m COMPOSITE 2 - - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region_alt | |
| extract_word = gf_w32_composite_extract_word | |
| w=16: - | |
| w=16: -m SHIFT - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -r CAUCHY - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region_neon | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_altmap_multiply_region_neon | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m COMPOSITE 2 - - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region_alt | |
| extract_word = gf_w16_composite_extract_word | |
| w=8: - | |
| w=8: -m SHIFT - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -r CAUCHY - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_neon_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_neon_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_double_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_double_table_lazy_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d MATRIX - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d EUCLID - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r CAUCHY - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -r CAUCHY - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_neon | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m COMPOSITE 2 - - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region_alt | |
| extract_word = gf_w8_composite_extract_word | |
| w=4: - | |
| w=4: -m SHIFT - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -r CAUCHY - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_neon_clm_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_neon_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_double_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_quad_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d MATRIX - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d EUCLID - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_quad_table_lazy_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d MATRIX - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d EUCLID - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region_neon | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r CAUCHY - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -r CAUCHY - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word |
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| w=128: - | |
| w=128: -m SHIFT - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SHIFT -d EUCLID - | |
| multiply = gf_w128_shift_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m CARRY_FREE - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_clm_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_clm_multiply_region_from_single | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w128_group_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_group_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r SIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r SIMD - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_b_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_bytwo_b_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w128_bytwo_p_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 4 -r ALTMAP - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_altmap_multiply_region | |
| extract_word = gf_w128_split_extract_word | |
| w=128: -m SPLIT 128 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_altmap_multiply_region | |
| extract_word = gf_w128_split_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_altmap_multiply_region | |
| extract_word = gf_w128_split_extract_word | |
| w=128: -m SPLIT 128 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_4_128_sse_altmap_multiply_region | |
| extract_word = gf_w128_split_extract_word | |
| w=128: -m SPLIT 128 8 - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m SPLIT 128 8 -d EUCLID - | |
| multiply = gf_w128_clm_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_euclid | |
| multiply_region = gf_w128_split_8_128_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region | |
| extract_word = gf_w128_extract_word | |
| w=128: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w128_composite_multiply | |
| divide = gf_w128_divide_from_inverse | |
| inverse = gf_w128_composite_inverse | |
| multiply_region = gf_w128_composite_multiply_region_alt | |
| extract_word = gf_w128_composite_extract_word | |
| w=64: - | |
| w=64: -m SHIFT - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SHIFT -d EUCLID - | |
| multiply = gf_w64_shift_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m CARRY_FREE - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_clm_multiply_region_from_single_2 | |
| extract_word = gf_w64_extract_word | |
| w=64: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_clm_multiply_region_from_single_2 | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w64_group_s_equals_r_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_s_equals_r_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w64_group_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_group_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r SIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r SIMD - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_b_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w64_bytwo_p_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 4 -r ALTMAP - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_4_64_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w64_split_extract_word | |
| w=64: -m SPLIT 64 8 - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 8 -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_8_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 64 16 -d EUCLID - | |
| multiply = gf_w64_clm_multiply_2 | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_split_16_64_lazy_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w64_split_8_8_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_euclid | |
| multiply_region = gf_w64_multiply_region_from_single | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region | |
| extract_word = gf_w64_extract_word | |
| w=64: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w64_composite_multiply | |
| divide = gf_w64_divide_from_inverse | |
| inverse = gf_w64_composite_inverse | |
| multiply_region = gf_w64_composite_multiply_region_alt | |
| extract_word = gf_w64_composite_extract_word | |
| w=32: - | |
| w=32: -m SHIFT - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SHIFT -r CAUCHY - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_shift_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_clm_multiply_region_from_single_4 | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_clm_multiply_region_from_single_4 | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_clm_multiply_region_from_single_4 | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE_GK - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_cfmgk_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE_GK -d MATRIX - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_cfmgk_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE_GK -d EUCLID - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_cfmgk_multiply_region_from_single | |
| extract_word = gf_w32_extract_word | |
| w=32: -m CARRY_FREE_GK -r CAUCHY - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE_GK -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m CARRY_FREE_GK -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_cfmgk_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_s_equals_r_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_s_equals_r_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_group_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m GROUP 4 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_group_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r SIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r SIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_p_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r SIMD - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r SIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_bytwo_b_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_4_32_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w32_split_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_16_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 32 16 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_clm_multiply_4 | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_w32_split_8_32_lazy_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w32_split_8_8_multiply | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=32: -m COMPOSITE 2 - - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region | |
| extract_word = gf_w32_extract_word | |
| w=32: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w32_composite_multiply_inline | |
| divide = gf_w32_divide_from_inverse | |
| inverse = gf_w32_composite_inverse | |
| multiply_region = gf_w32_composite_multiply_region_alt | |
| extract_word = gf_w32_composite_extract_word | |
| w=16: - | |
| w=16: -m SHIFT - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_multiply_region_from_single | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SHIFT -r CAUCHY - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_shift_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m CARRY_FREE - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_clm_multiply_region_from_single_4 | |
| extract_word = gf_w16_extract_word | |
| w=16: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_clm_multiply_region_from_single_4 | |
| extract_word = gf_w16_extract_word | |
| w=16: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_clm_multiply_region_from_single_4 | |
| extract_word = gf_w16_extract_word | |
| w=16: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_clm_multiply_4 | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_group_4_4_region_multiply | |
| extract_word = gf_w16_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m GROUP 4 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_group_4_4_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r SIMD - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r SIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_p_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r SIMD - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r SIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_bytwo_b_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_table_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m TABLE -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_log_zero_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_log_zero_divide | |
| inverse = gf_w16_log_zero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_zero_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_sse_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r SIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_sse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r NOSIMD -r ALTMAP -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_4_16_lazy_nosse_altmap_multiply_region | |
| extract_word = gf_w16_split_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_log_divide | |
| inverse = gf_w16_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 16 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_log_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_w16_split_8_16_lazy_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d MATRIX - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m SPLIT 8 8 -r CAUCHY -d EUCLID - | |
| multiply = gf_w16_split_8_8_multiply | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=16: -m COMPOSITE 2 - - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region | |
| extract_word = gf_w16_extract_word | |
| w=16: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w16_composite_multiply_inline | |
| divide = gf_w16_divide_from_inverse | |
| inverse = gf_w16_composite_inverse | |
| multiply_region = gf_w16_composite_multiply_region_alt | |
| extract_word = gf_w16_composite_extract_word | |
| w=8: - | |
| w=8: -m SHIFT - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_multiply_region_from_single | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SHIFT -r CAUCHY - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_shift_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_clm_multiply_region_from_single_2 | |
| extract_word = gf_w8_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_clm_multiply_2 | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r SIMD - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r SIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_p_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r SIMD - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r SIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_sse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_bytwo_b_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_double_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w8_double_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_double_table_lazy_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d MATRIX - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r DOUBLE -r LAZY -d EUCLID - | |
| multiply = gf_w8_double_table_lazy_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_double_table_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m TABLE -r CAUCHY - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_table_divide | |
| inverse = gf_w8_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_table_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_log_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG -r CAUCHY - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_log_divide | |
| inverse = gf_w8_log_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_log_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_logzero_small_divide | |
| inverse = gf_w8_logzero_small_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_small_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_logzero_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_logzero_divide | |
| inverse = gf_w8_logzero_inverse | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m LOG_ZERO_EXT -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_logzero_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r SIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region_sse | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r NOSIMD -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_w8_split_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d MATRIX - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m SPLIT 8 4 -r CAUCHY -d EUCLID - | |
| multiply = gf_w8_split_multiply | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=8: -m COMPOSITE 2 - - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region | |
| extract_word = gf_w8_extract_word | |
| w=8: -m COMPOSITE 2 - -r ALTMAP - | |
| multiply = gf_w8_composite_multiply_inline | |
| divide = gf_w8_divide_from_inverse | |
| inverse = gf_w8_composite_inverse | |
| multiply_region = gf_w8_composite_multiply_region_alt | |
| extract_word = gf_w8_composite_extract_word | |
| w=4: - | |
| w=4: -m SHIFT - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m SHIFT -r CAUCHY - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m SHIFT -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_shift_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d MATRIX - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -d EUCLID - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_multiply_region_from_single | |
| extract_word = gf_w4_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m CARRY_FREE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_clm_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r SIMD - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r SIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r SIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_p_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_p -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_p_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r SIMD - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r SIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r SIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_bytwo_b_nosse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m BYTWO_b -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_bytwo_b_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_double_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d MATRIX - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r DOUBLE -d EUCLID - | |
| multiply = gf_w4_double_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_double_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_quad_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d MATRIX - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -d EUCLID - | |
| multiply = gf_w4_quad_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_quad_table_lazy_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d MATRIX - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r QUAD -r LAZY -d EUCLID - | |
| multiply = gf_w4_quad_table_lazy_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_quad_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r SIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_sse_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r NOSIMD -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_single_table_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m TABLE -r CAUCHY - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_single_table_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m TABLE -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_single_table_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_w4_log_multiply_region | |
| extract_word = gf_w4_extract_word | |
| w=4: -m LOG -r CAUCHY - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_log_divide | |
| inverse = gf_w4_inverse_from_divide | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d MATRIX - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_matrix | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word | |
| w=4: -m LOG -r CAUCHY -d EUCLID - | |
| multiply = gf_w4_log_multiply | |
| divide = gf_w4_divide_from_inverse | |
| inverse = gf_w4_euclid | |
| multiply_region = gf_wgen_cauchy_region | |
| extract_word = gf_wgen_extract_word |
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| =========================================== | |
| gf-complete 1.0: tools/test-suite.log | |
| =========================================== | |
| # TOTAL: 6 | |
| # PASS: 6 | |
| # SKIP: 0 | |
| # XFAIL: 0 | |
| # FAIL: 0 | |
| # XPASS: 0 | |
| # ERROR: 0 | |
| .. contents:: :depth: 2 | |
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| gf_methods FAILED | |
| =========================================== | |
| gf-complete 1.0: tools/test-suite.log | |
| =========================================== | |
| # TOTAL: 6 | |
| # PASS: 5 | |
| # SKIP: 0 | |
| # XFAIL: 0 | |
| # FAIL: 1 | |
| # XPASS: 0 | |
| # ERROR: 0 | |
| .. contents:: :depth: 2 | |
| FAIL: gf_unit_w16 | |
| ================= | |
| Args: 16 A -1 - / size (bytes): 524428 | |
| Args: 16 A -1 -m SHIFT - / size (bytes): 72 | |
| Args: 16 A -1 -m GROUP 4 4 - / size (bytes): 200 | |
| Args: 16 A -1 -m BYTWO_p - / size (bytes): 96 | |
| Args: 16 A -1 -m BYTWO_p -r NOSIMD - / size (bytes): 96 | |
| Args: 16 A -1 -m BYTWO_b - / size (bytes): 96 | |
| Args: 16 A -1 -m BYTWO_b -r NOSIMD - / size (bytes): 96 | |
| Args: 16 A -1 -m TABLE - / size (bytes): 655500 | |
| Args: 16 A -1 -m LOG - / size (bytes): 524428 | |
| Args: 16 A -1 -m LOG_ZERO - / size (bytes): 917644 | |
| Args: 16 A -1 -m SPLIT 16 4 - / size (bytes): 524428 | |
| Args: 16 A -1 -m SPLIT 16 4 -r SIMD - / size (bytes): 524428 | |
| Args: 16 A -1 -m SPLIT 16 4 -r NOSIMD - / size (bytes): 524428 | |
| Problem with region multiply (all values in hex): | |
| Target address base: 0x101107e. Word 0x1 of 0x1ff7. Xor: 0 | |
| Value: 2 | |
| Original source word: 8c00 | |
| Product word: 1800 | |
| It should be: 80b | |
| lt-gf_unit: gf_general.c:315: gf_general_do_region_check: Assertion `0' failed. | |
| Args: 16 A -1 -m SPLIT 16 4 -r ALTMAP - / size (bytes): 524428 | |
| ./gf_unit_w16.sh: line 14: 14608 Aborted (core dumped) ../test/gf_unit 16 A -1 -m SPLIT 16 4 -r ALTMAP - | |
| FAIL gf_unit_w16.sh (exit status: 134) | |
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| =========================================== | |
| gf-complete 1.0: tools/test-suite.log | |
| =========================================== | |
| # TOTAL: 6 | |
| # PASS: 6 | |
| # SKIP: 0 | |
| # XFAIL: 0 | |
| # FAIL: 0 | |
| # XPASS: 0 | |
| # ERROR: 0 | |
| .. contents:: :depth: 2 | |
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Note the unit test failure for ARM looks like http://lab.jerasure.org/jerasure/gf-complete/issues/2