xc-llm-ascend/tests/ut/_310p/quantization/test_w8a8s_310.py

#
# Copyright (c) 2026 Huawei Technologies Co., Ltd. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

from unittest.mock import MagicMock, patch

import torch

from tests.ut.base import TestBase
from vllm_ascend._310p.quantization.methods.w8a8s import AscendW8A8SLinearMethod310


class TestAscendW8A8SLinearMethod310(TestBase):
    def setUp(self):
        self.method = AscendW8A8SLinearMethod310()

    def test_get_weight_310(self):
        weight = self.method.get_weight(10, 20)
        self.assertEqual(weight["weight"].dtype, torch.int8)
        self.assertEqual(weight["weight"].shape, (20, 10))

    def test_get_pertensor_param_310(self):
        params = self.method.get_pertensor_param(torch.float16)
        self.assertEqual(params["input_scale"].dtype, torch.float16)
        self.assertEqual(params["input_offset"].dtype, torch.int8)
        self.assertEqual(params["input_scale"].shape, (1,))
        self.assertEqual(params["input_offset"].shape, (1,))

    def test_get_perchannel_param_310(self):
        params = self.method.get_perchannel_param(10, torch.float16)

        self.assertEqual(params["quant_bias"].dtype, torch.int32)
        self.assertEqual(params["deq_scale"].dtype, torch.int64)
        self.assertEqual(params["quant_bias"].shape, (10,))
        self.assertEqual(params["deq_scale"].shape, (10,))

    @patch("torch.ops.vllm.quantize")
    @patch("torch_npu.npu_quant_matmul")
    def test_apply_with_x_not_int8_310(self, mock_npu_quant_matmul, mock_quantize):
        layer = MagicMock()
        layer.aclnn_input_scale = torch.randn(256)
        layer.aclnn_input_scale_reciprocal = 1.0 / layer.aclnn_input_scale
        layer.aclnn_input_offset = torch.randint(-128, 127, (256,), dtype=torch.int8)
        layer.weight = torch.randn(128, 256)
        layer.deq_scale = torch.randn(128)
        layer.quant_bias = torch.randint(-128, 127, (256,))
        layer.params_dtype = torch.float16

        x = torch.randn(32, 128)
        expect_x_output = torch.randint(-128, 127, x.shape, dtype=torch.int8)
        mock_quantize.return_value = expect_x_output

        expected_y_output = torch.randn(32, 256)
        mock_npu_quant_matmul.return_value = expected_y_output

        output = self.method.apply(layer, x, tp_rank=0)

        mock_quantize.assert_called_with(
            x, layer.aclnn_input_scale, layer.aclnn_input_scale_reciprocal, layer.aclnn_input_offset
        )
        self.assertTrue(torch.equal(output, expected_y_output))

    @patch("torch.ops.vllm.quantize")
    @patch("torch_npu.npu_quant_matmul")
    def test_apply_with_x_is_int8_310(self, mock_npu_quant_matmul, mock_quantize):
        layer = MagicMock()
        layer.aclnn_input_scale = torch.randn(256)
        layer.aclnn_input_offset = torch.randint(-128, 127, (256,), dtype=torch.int8)
        layer.weight = torch.randn(128, 256)
        layer.deq_scale = torch.randn(128)
        layer.quant_bias = torch.randint(-128, 127, (256,))
        layer.params_dtype = torch.float16

        x = torch.randint(-128, 127, (32, 128), dtype=torch.int8)

        expected_y_output = torch.randn(32, 256)
        mock_npu_quant_matmul.return_value = expected_y_output

        output = self.method.apply(layer, x, tp_rank=0)

        mock_quantize.assert_not_called()
        self.assertTrue(torch.equal(output, expected_y_output))
[Feat][310p] 310P support w8a8s quantization and saving w8a8sc state (#6878) ### What this PR does / why we need it? This pull request introduces significant enhancements for 310P device support, primarily by enabling W8A8S quantization and facilitating the saving of models with W8A8SC state outputs. It provides an example script for saving sharded and compressed model states, implements the core W8A8S quantization method, and integrates metadata generation within the 310P worker to accurately describe the quantization types of saved parameters. These changes aim to improve efficiency and compatibility for quantized models on 310P hardware. ### Does this PR introduce _any_ user-facing change? No ### How was this patch tested? W8A8S accuarcy test and W8A8SC states save. <img width="886" height="184" alt="image" src="https://github.com/user-attachments/assets/e9bcac54-1f69-4d3a-a5b8-221a147ef99d" /> - vLLM version: v0.16.0 - vLLM main: https://github.com/vllm-project/vllm/commit/15d76f74e2fdb12a95ea00f0ca283acf6219a2b7 --------- Signed-off-by: pu-zhe <zpuaa@outlook.com> 2026-03-02 20:09:15 +08:00			`#`
			`# Copyright (c) 2026 Huawei Technologies Co., Ltd. All Rights Reserved.`
			`#`
			`# Licensed under the Apache License, Version 2.0 (the "License");`
			`# you may not use this file except in compliance with the License.`
			`# You may obtain a copy of the License at`
			`#`
			`# http://www.apache.org/licenses/LICENSE-2.0`
			`#`
			`# Unless required by applicable law or agreed to in writing, software`
			`# distributed under the License is distributed on an "AS IS" BASIS,`
			`# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`# See the License for the specific language governing permissions and`
			`# limitations under the License.`

			`from unittest.mock import MagicMock, patch`

			`import torch`

			`from tests.ut.base import TestBase`
			`from vllm_ascend._310p.quantization.methods.w8a8s import AscendW8A8SLinearMethod310`


			`class TestAscendW8A8SLinearMethod310(TestBase):`
			`def setUp(self):`
			`self.method = AscendW8A8SLinearMethod310()`

			`def test_get_weight_310(self):`
			`weight = self.method.get_weight(10, 20)`
			`self.assertEqual(weight["weight"].dtype, torch.int8)`
			`self.assertEqual(weight["weight"].shape, (20, 10))`

			`def test_get_pertensor_param_310(self):`
			`params = self.method.get_pertensor_param(torch.float16)`
			`self.assertEqual(params["input_scale"].dtype, torch.float16)`
			`self.assertEqual(params["input_offset"].dtype, torch.int8)`
			`self.assertEqual(params["input_scale"].shape, (1,))`
			`self.assertEqual(params["input_offset"].shape, (1,))`

			`def test_get_perchannel_param_310(self):`
			`params = self.method.get_perchannel_param(10, torch.float16)`

			`self.assertEqual(params["quant_bias"].dtype, torch.int32)`
			`self.assertEqual(params["deq_scale"].dtype, torch.int64)`
			`self.assertEqual(params["quant_bias"].shape, (10,))`
			`self.assertEqual(params["deq_scale"].shape, (10,))`

			`@patch("torch.ops.vllm.quantize")`
			`@patch("torch_npu.npu_quant_matmul")`
			`def test_apply_with_x_not_int8_310(self, mock_npu_quant_matmul, mock_quantize):`
			`layer = MagicMock()`
			`layer.aclnn_input_scale = torch.randn(256)`
			`layer.aclnn_input_scale_reciprocal = 1.0 / layer.aclnn_input_scale`
			`layer.aclnn_input_offset = torch.randint(-128, 127, (256,), dtype=torch.int8)`
			`layer.weight = torch.randn(128, 256)`
			`layer.deq_scale = torch.randn(128)`
			`layer.quant_bias = torch.randint(-128, 127, (256,))`
			`layer.params_dtype = torch.float16`

			`x = torch.randn(32, 128)`
			`expect_x_output = torch.randint(-128, 127, x.shape, dtype=torch.int8)`
			`mock_quantize.return_value = expect_x_output`

			`expected_y_output = torch.randn(32, 256)`
			`mock_npu_quant_matmul.return_value = expected_y_output`

			`output = self.method.apply(layer, x, tp_rank=0)`

			`mock_quantize.assert_called_with(`
			`x, layer.aclnn_input_scale, layer.aclnn_input_scale_reciprocal, layer.aclnn_input_offset`
			`)`
			`self.assertTrue(torch.equal(output, expected_y_output))`

			`@patch("torch.ops.vllm.quantize")`
			`@patch("torch_npu.npu_quant_matmul")`
			`def test_apply_with_x_is_int8_310(self, mock_npu_quant_matmul, mock_quantize):`
			`layer = MagicMock()`
			`layer.aclnn_input_scale = torch.randn(256)`
			`layer.aclnn_input_offset = torch.randint(-128, 127, (256,), dtype=torch.int8)`
			`layer.weight = torch.randn(128, 256)`
			`layer.deq_scale = torch.randn(128)`
			`layer.quant_bias = torch.randint(-128, 127, (256,))`
			`layer.params_dtype = torch.float16`

			`x = torch.randint(-128, 127, (32, 128), dtype=torch.int8)`

			`expected_y_output = torch.randn(32, 256)`
			`mock_npu_quant_matmul.return_value = expected_y_output`

			`output = self.method.apply(layer, x, tp_rank=0)`

			`mock_quantize.assert_not_called()`
			`self.assertTrue(torch.equal(output, expected_y_output))`