def test_assert_broadcastable_mask_and_weight_shape(): nncf_module = NNCFConv2d(1, 2, 2) fill_conv_weight(nncf_module, 1) fill_bias(nncf_module, 1) mask = torch.zeros(10) with pytest.raises(RuntimeError): inplace_apply_filter_binary_mask(mask, nncf_module.weight.data) with pytest.raises(RuntimeError): apply_filter_binary_mask(mask, nncf_module.weight.data)
def test_can_infer_magnitude_sparse_linear(weight_importance, threshold, ref_output): nncf_module = NNCFLinear(4, 1) sparse_model = TestModel(nncf_module) sparsifier = sparse_model.sparsifier fill_linear_weight(nncf_module, 9) fill_bias(nncf_module, 0) if threshold is not None: sparsifier.binary_mask = calc_magnitude_binary_mask( sparse_model.layer.weight, weight_importance, threshold) act_output = sparse_model(torch.ones([1, 4])) assert act_output.item() == ref_output
def test_inplace_apply_filter_binary_mask(mask, reference_weight, reference_bias): """ Test that inplace_apply_filter_binary_mask changes the input weight and returns valid result. """ nncf_module = NNCFConv2d(1, 2, 2) fill_conv_weight(nncf_module, 1) fill_bias(nncf_module, 1) result_weight = inplace_apply_filter_binary_mask( mask, nncf_module.weight.data) assert torch.allclose(result_weight, reference_weight) assert torch.allclose(nncf_module.weight, reference_weight) result_bias = inplace_apply_filter_binary_mask(mask, nncf_module.bias.data) assert torch.allclose(result_bias, reference_bias) assert torch.allclose(nncf_module.bias, reference_bias)
def test_apply_filter_binary_mask(mask, reference_weight, reference_bias): """ Test that apply_filter_binary_mask not changes the input weight and returns valid result. """ nncf_module = NNCFConv2d(1, 2, 2) fill_conv_weight(nncf_module, 1) fill_bias(nncf_module, 1) original_weight = nncf_module.weight.data.detach().clone() original_bias = nncf_module.bias.data.detach().clone() result = apply_filter_binary_mask(mask, nncf_module.weight.data) assert torch.allclose(nncf_module.weight, original_weight) assert torch.allclose(result, reference_weight) result_bias = apply_filter_binary_mask(mask, nncf_module.bias.data) assert torch.allclose(result_bias, reference_bias) assert torch.allclose(nncf_module.bias, original_bias)
def test_can_infer_magnitude_pruned_conv(weights_val, bias_val): """ Check that NNCFConv2d with FilterPruningBlock as pre ops working exactly the same as normal nn.Conv2d. :param weights_val: value for filling weights :param bias_val: value for filling biases """ nncf_module = NNCFConv2d(1, 1, 2) pytorch_module = nn.Conv2d(1, 1, 2) sparse_model = TestFilterPruningBlockModel(nncf_module) fill_conv_weight(nncf_module, weights_val) fill_bias(nncf_module, bias_val) fill_conv_weight(pytorch_module, weights_val) fill_bias(pytorch_module, bias_val) act_output = sparse_model(torch.ones([1, 1, 2, 2])) ref_output = pytorch_module(torch.ones([1, 1, 2, 2])) assert act_output.item() == ref_output