for (; i + 3 < n; i += 4) {
_mm_storeu_ps(y + i, ggml_v_silu(_mm_loadu_ps(x + i)));
}
+#elif defined(__ARM_FEATURE_SVE) && defined(__aarch64__)
+ const int vlen = svcntw();
+ for (; i < n; i += vlen) {
+ const svbool_t pg = svwhilelt_b32_s32(i, n);
+ svst1_f32(pg, y + i, ggml_v_silu(pg, svld1_f32(pg, x + i)));
+ }
#elif defined(__ARM_NEON) && defined(__aarch64__)
for (; i + 3 < n; i += 4) {
vst1q_f32(y + i, ggml_v_silu(vld1q_f32(x + i)));
for (; i + 3 < n; i += 4) {
_mm_storeu_ps(y + i, _mm_mul_ps(ggml_v_silu(_mm_loadu_ps(x + i)), _mm_loadu_ps(g + i)));
}
+#elif defined(__ARM_FEATURE_SVE) && defined(__aarch64__)
+ const int vlen = svcntw();
+ for (; i < n; i += vlen) {
+ const svbool_t pg = svwhilelt_b32_s32(i, n);
+ svst1_f32(pg, y + i, svmul_f32_x(pg, ggml_v_silu(pg, svld1_f32(pg, x + i)), svld1_f32(pg, g + i)));
+ }
#elif defined(__ARM_NEON) && defined(__aarch64__)
for (; i + 3 < n; i += 4) {
vst1q_f32(y + i, vmulq_f32(ggml_v_silu(vld1q_f32(x + i)), vld1q_f32(g + i)));
#endif
sum += (ggml_float)_mm_cvtss_f32(val);
}
+#elif defined(__ARM_FEATURE_SVE) && defined(__aarch64__)
+ const int vlen = svcntw();
+ for (; i < n; i += vlen) {
+ const svbool_t pg = svwhilelt_b32_s32(i, n);
+ svfloat32_t val = ggml_v_expf(pg, svsub_f32_x(pg, svld1_f32(pg, x + i),
+ svdup_n_f32_x(pg, max)));
+ svst1_f32(pg, y + i, val);
+ sum += (ggml_float)svaddv_f32(pg, val);
+ }
#elif defined(__ARM_NEON) && defined(__aarch64__)
for (; i + 3 < n; i += 4) {
float32x4_t val = ggml_v_expf(vsubq_f32(vld1q_f32(x + i),
}
#endif
-#if defined(__ARM_NEON) && defined(__aarch64__)
+#if defined(__ARM_FEATURE_SVE) && defined(__aarch64__)
+
+inline static svfloat32_t ggml_v_expf(svbool_t pg, svfloat32_t x) {
+ const svfloat32_t r = svdup_n_f32_x(pg, 0x1.8p23f);
+ const svfloat32_t z = svmla_n_f32_x(pg, r, x, 0x1.715476p+0f);
+ const svfloat32_t n = svsub_f32_x(pg, z, r);
+ const svfloat32_t b = svmls_n_f32_x(pg, svmls_n_f32_x(pg, x, n, 0x1.62e4p-1f), n, 0x1.7f7d1cp-20f);
+ const svuint32_t e = svlsl_n_u32_x(pg, svreinterpret_u32_f32(z), 23);
+ const svfloat32_t k = svreinterpret_f32_u32(svadd_u32_x(pg, e, svreinterpret_u32_f32(svdup_n_f32_x(pg, 1))));
+ const svbool_t c = svacgt_n_f32(pg, n, 126);
+ const svfloat32_t u = svmul_f32_x(pg, b, b);
+ const svfloat32_t j = svmla_f32_x(pg,
+ svmul_n_f32_x(pg, b, 0x1.ffffecp-1f),
+ svmla_f32_x(pg, svmla_f32_x(pg, svdup_n_f32_x(pg, 0x1.fffdb6p-2f), svdup_n_f32_x(pg, 0x1.555e66p-3f), b),
+ svmla_f32_x(pg, svdup_n_f32_x(pg, 0x1.573e2ep-5f), svdup_n_f32_x(pg, 0x1.0e4020p-7f), b), u), u);
+ const svuint32_t d = svdup_n_u32_z(svcmple_n_f32(pg, n, 0.0), 0x82000000);
+ const svfloat32_t s1 = svreinterpret_f32_u32(svadd_n_u32_x(pg, d, 0x7f000000));
+ const svfloat32_t s2 = svreinterpret_f32_u32(svsub_u32_x(pg, e, d));
+ return svsel_f32(svacgt_f32(pg, n, svdup_n_f32_x(pg, 192)), svmul_f32_x(pg, s1, s1),
+ svsel_f32(c, svmul_f32_x(pg, svmla_f32_x(pg, s2, s2, j), s1), svmla_f32_x(pg, k, k, j)));
+}
+
+// computes silu x/(1+exp(-x)) in single precision vector
+inline static svfloat32_t ggml_v_silu(svbool_t pg, svfloat32_t x) {
+ const svfloat32_t one = svdup_n_f32_x(pg, 1.0f);
+ const svfloat32_t zero = svdup_n_f32_x(pg, 0.0f);
+ const svfloat32_t neg_x = svsub_f32_x(pg, zero, x);
+ const svfloat32_t exp_neg_x = ggml_v_expf(pg, neg_x);
+ const svfloat32_t one_plus_exp_neg_x = svadd_f32_x(pg, one, exp_neg_x);
+ return svdiv_f32_x(pg, x, one_plus_exp_neg_x);
+}
+
+#elif defined(__ARM_NEON) && defined(__aarch64__)
// adapted from arm limited optimized routine
// the maximum error is 1.45358 plus 0.5 ulps
overview / pkg / ggml / sources / llama.cpp / commitdiff