from unittest.mock import Mock, patch import torch from tests.ut.base import TestBase from vllm_ascend.quantization.w8a8_dynamic import \ AscendW8A8DynamicFusedMoEMethod class TestAscendW8A8FusedMoEMethod(TestBase): num_experts = 8 hidden_size = 128 intermediate_size = 128 @patch("torch.distributed.get_rank") @patch("vllm_ascend.quantization.w8a8_dynamic.get_mc2_group") @patch("vllm_ascend.quantization.w8a8_dynamic.get_ascend_config") @patch("vllm_ascend.quantization.w8a8_dynamic.get_ep_group") def setUp(self, mock_get_ep_group, mock_get_ascend_config, mock_get_mc2_group, mock_get_rank): with patch( 'vllm_ascend.quantization.w8a8_dynamic.get_current_vllm_config' ) as mock_get_current_vllm_config: mock_vllm_config = Mock() mock_vllm_config.quant_config = Mock( quant_description={"group_size": 256}) mock_vllm_config.scheduler_config = Mock( max_num_batched_tokens=2048, max_model_len=2048, enable_chunked_prefill=False) mock_get_current_vllm_config.return_value = mock_vllm_config mock_ep_group = Mock() mock_get_ep_group.return_value = mock_ep_group mock_ascend_config = Mock() mock_ascend_config.enable_chunked_prefill = False mock_get_ascend_config.return_value = mock_ascend_config mock_mc2_group = Mock(device_group=0) mock_get_mc2_group.return_value = mock_mc2_group mock_rank = Mock() mock_get_rank.return_value = mock_rank self.quant_method = AscendW8A8DynamicFusedMoEMethod() def test_get_weight(self): param_dict = self.quant_method.get_weight(self.num_experts, self.intermediate_size, self.hidden_size, torch.bfloat16) self.assertEqual(param_dict["w13_weight"].dtype, torch.int8) self.assertEqual( param_dict["w13_weight"].shape, (self.num_experts, 2 * self.intermediate_size, self.hidden_size)) def test_get_dynamic_quant_param(self): param_dict = self.quant_method.get_dynamic_quant_param( self.num_experts, self.intermediate_size, self.hidden_size, torch.bfloat16) self.assertEqual(param_dict["w13_weight_scale"].dtype, torch.bfloat16) self.assertEqual(param_dict["w13_weight_scale"].shape, (self.num_experts, 2 * self.intermediate_size, 1)) def build_layer(self): layer = torch.nn.Module() layer.w13_weight = torch.nn.Parameter(torch.empty( self.num_experts, 2 * self.intermediate_size, self.hidden_size, dtype=torch.int8), requires_grad=False) layer.w2_weight = torch.nn.Parameter(torch.empty( self.num_experts, self.hidden_size, self.intermediate_size, dtype=torch.int8), requires_grad=False) w13_weight_scale = torch.zeros( (self.num_experts, 2 * self.intermediate_size, 1), dtype=torch.float32) layer.w13_weight_scale = torch.nn.Parameter(w13_weight_scale, requires_grad=False) w13_weight_offset = torch.zeros( (self.num_experts, 2 * self.intermediate_size, 1), dtype=torch.float32) layer.w13_weight_offset = torch.nn.Parameter(w13_weight_offset, requires_grad=False) w2_weight_scale = torch.zeros((self.num_experts, self.hidden_size, 1), dtype=torch.float32) layer.w2_weight_scale = torch.nn.Parameter(w2_weight_scale, requires_grad=False) w2_weight_offset = torch.zeros((self.num_experts, self.hidden_size, 1), dtype=torch.float32) layer.w2_weight_offset = torch.nn.Parameter(w2_weight_offset, requires_grad=False) return layer @patch('torch_npu.npu_format_cast') def test_process_weights_after_loading(self, mock_npu_format_cast): def func_by_args(weight, num_format): return weight mock_npu_format_cast.side_effect = func_by_args new_layer = self.build_layer() self.quant_method.process_weights_after_loading(new_layer) mock_npu_format_cast.assert_called()