blob: 4070c817fe8d6ebc038a0805552af0f4105fb6a3 [file] [log] [blame]
// Fssd_25_8bit_v2 quant model
// MlModel struct initialization to include model I/O info.
// Bytecode loading, input/output processes.
#include <springbok.h>
#include "iree/base/api.h"
#include "iree/hal/api.h"
#include "samples/util/util.h"
// Compiled module embedded here to avoid file IO:
#include "samples/quant_model/fssd_25_8bit_v2_bytecode_module_dylib_c.h"
const MlModel kModel = {
.num_input = 1,
.num_input_dim = {4},
.input_shape = {{1, 320, 320, 3}},
.input_length = {320 * 320 * 3},
.input_size_bytes = {sizeof(uint8_t)},
.num_output = 8,
.output_length = {20 * 20 * 48, 20 * 20 * 3, 10 * 10 * 48, 10 * 10 * 3,
5 * 5 * 48, 5 * 5 * 3, 3 * 3 * 48, 3 * 3 * 3},
.output_size_bytes = sizeof(uint8_t),
.hal_element_type = IREE_HAL_ELEMENT_TYPE_UINT_8,
.entry_func = "module.main",
.model_name = "fssd_25_8bit_v2_quant",
};
const iree_const_byte_span_t load_bytecode_module_data() {
const struct iree_file_toc_t *module_file_toc =
samples_quant_model_fssd_25_8bit_v2_bytecode_module_dylib_create();
return iree_make_const_byte_span(module_file_toc->data,
module_file_toc->size);
}
iree_status_t load_input_data(const MlModel *model, void **buffer,
iree_byte_span_t **byte_span) {
iree_status_t result = alloc_input_buffer(model, buffer);
// Populate initial value
srand(11111111);
if (iree_status_is_ok(result)) {
for (int i = 0; i < model->input_length[0]; ++i) {
((uint8_t *)*buffer)[i] = (uint8_t)rand();
}
}
byte_span[0] = malloc(sizeof(iree_byte_span_t));
*byte_span[0] = iree_make_byte_span(
buffer[0], model->input_size_bytes[0] * model->input_length[0]);
return result;
}
iree_status_t process_output(const MlModel *model,
iree_hal_buffer_mapping_t *buffers,
MlOutput *output) {
return iree_ok_status();
}