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// | |
// logging | |
// | |
static float frand(void) { | |
return (float)rand()/(float)RAND_MAX; | |
} | |
static int irand(int n) { | |
if (n == 0) return 0; | |
return rand()%n; | |
} | |
static void get_random_dims(int64_t * dims, int ndims) { | |
dims[0] = dims[1] = dims[2] = dims[3] = 1; | |
for (int i = 0; i < ndims; i++) { | |
dims[i] = 1 + irand(4); | |
} | |
} | |
static struct ggml_tensor * get_random_tensor_f32( | |
struct ggml_context * ctx0, | |
int ndims, | |
const int64_t ne[], | |
float fmin, | |
float fmax) { | |
struct ggml_tensor * result = ggml_new_tensor(ctx0, GGML_TYPE_F32, ndims, ne); | |
switch (ndims) { | |
case 1: | |
for (int i0 = 0; i0 < ne[0]; i0++) { | |
((float *)result->data)[i0] = frand()*(fmax - fmin) + fmin; | |
} | |
break; | |
case 2: | |
for (int i1 = 0; i1 < ne[1]; i1++) { | |
for (int i0 = 0; i0 < ne[0]; i0++) { | |
((float *)result->data)[i1*ne[0] + i0] = frand()*(fmax - fmin) + fmin; | |
} | |
} | |
break; | |
case 3: | |
for (int i2 = 0; i2 < ne[2]; i2++) { | |
for (int i1 = 0; i1 < ne[1]; i1++) { | |
for (int i0 = 0; i0 < ne[0]; i0++) { | |
((float *)result->data)[i2*ne[1]*ne[0] + i1*ne[0] + i0] = frand()*(fmax - fmin) + fmin; | |
} | |
} | |
} | |
break; | |
case 4: | |
for (int i3 = 0; i3 < ne[3]; i3++) { | |
for (int i2 = 0; i2 < ne[2]; i2++) { | |
for (int i1 = 0; i1 < ne[1]; i1++) { | |
for (int i0 = 0; i0 < ne[0]; i0++) { | |
((float *)result->data)[i3*ne[2]*ne[1]*ne[0] + i2*ne[1]*ne[0] + i1*ne[0] + i0] = frand()*(fmax - fmin) + fmin; | |
} | |
} | |
} | |
} | |
break; | |
default: | |
assert(false); | |
}; | |
return result; | |
} | |
static void ggml_graph_compute_helper(std::vector<uint8_t> & buf, ggml_cgraph * graph, int n_threads) { | |
struct ggml_cplan plan = ggml_graph_plan(graph, n_threads); | |
if (plan.work_size > 0) { | |
buf.resize(plan.work_size); | |
plan.work_data = buf.data(); | |
} | |
ggml_graph_compute(graph, &plan); | |
} | |
int main(int /*argc*/, const char ** /*argv*/) { | |
struct ggml_init_params params = { | |
/* .mem_size = */ 128*1024*1024, | |
/* .mem_buffer = */ NULL, | |
/* .no_alloc = */ false, | |
}; | |
std::vector<uint8_t> work_buffer; | |
struct ggml_context * ctx0 = ggml_init(params); | |
struct ggml_tensor * x; | |
// rope f32 | |
for (int m = 0; m < 3; ++m) { | |
const int ndims = 4; | |
const int64_t n_rot = 128; | |
const int64_t ne[4] = { 2*n_rot, 32, 73, 1 }; | |
const int n_past_0 = 100; | |
const int n_past_2 = 33; | |
struct ggml_tensor * p0 = ggml_new_tensor_1d(ctx0, GGML_TYPE_I32, ne[2]); | |
struct ggml_tensor * p1 = ggml_new_tensor_1d(ctx0, GGML_TYPE_I32, ne[2]); | |
struct ggml_tensor * p2 = ggml_new_tensor_1d(ctx0, GGML_TYPE_I32, ne[2]); | |
for (int i = 0; i < ne[2]; ++i) { | |
((int32_t *) p0->data)[i] = n_past_0 + i; | |
((int32_t *) p1->data)[i] = n_past_2 - n_past_0; | |
((int32_t *) p2->data)[i] = n_past_2 + i; | |
} | |
// test mode 0, 2, 4 (standard, GPT-NeoX, GLM) | |
const int mode = m == 0 ? 0 : m == 1 ? 2 : 4; | |
x = get_random_tensor_f32(ctx0, ndims, ne, -1.0f, 1.0f); | |
// 100, 101, 102, ..., 172 | |
struct ggml_tensor * r0 = ggml_rope(ctx0, x, p0, n_rot, mode, 1024); | |
// -67, -67, -67, ..., -67 | |
struct ggml_tensor * r1 = ggml_rope(ctx0, r0, p1, n_rot, mode, 1024); // "context swap", i.e. forget n_past_0 - n_past_2 tokens | |
// 33, 34, 35, ..., 105 | |
struct ggml_tensor * r2 = ggml_rope(ctx0, x, p2, n_rot, mode, 1024); | |
ggml_cgraph * gf = ggml_new_graph(ctx0); | |
ggml_build_forward_expand(gf, r0); | |
ggml_build_forward_expand(gf, r1); | |
ggml_build_forward_expand(gf, r2); | |
ggml_graph_compute_helper(work_buffer, gf, 4); | |
// check that r1 and r2 are the same | |
{ | |
double sum0 = 0.0f; | |
double sum1 = 0.0f; | |
double diff = 0.0f; | |
const float * r1_data = (float *) r1->data; | |
const float * r2_data = (float *) r2->data; | |
const int n_elements = ggml_nelements(r1); | |
for (int i = 0; i < n_elements; ++i) { | |
sum0 += fabs(r1_data[i]); | |
sum1 += fabs(r2_data[i]); | |
diff += fabs(r1_data[i] - r2_data[i]); | |
//if (fabs(r1_data[i] - r2_data[i]) > 0.0001f) { | |
// printf("%d: %f %f\n", i, r1_data[i], r2_data[i]); | |
// printf("diff: %f\n", fabs(r1_data[i] - r2_data[i])); | |
//} | |
} | |
//for (int i = 4096; i < 4096 + 128; ++i) { | |
// printf("%f %f\n", r1_data[i], r2_data[i]); | |
//} | |
printf("mode: %d\n", mode); | |
printf("sum0: %f\n", sum0); | |
printf("sum1: %f\n", sum1); | |
printf("diff: %f\n", diff); | |
printf("rel err: %f\n", diff / sum0); | |
printf("rel err: %f\n", diff / sum1); | |
GGML_ASSERT(diff / sum0 < 0.0001f); | |
GGML_ASSERT(diff / sum1 < 0.0001f); | |
} | |
} | |
ggml_free(ctx0); | |
return 0; | |
} | |