xc-llm-ascend/docs/source/tutorials/models/DeepSeekOCR2.md

# DeepSeek-OCR-2

## Introduction

DeepSeekOCR2 is a model to investigate the role of vision encoders from an LLM-centric viewpoint.

The `DeepSeek-OCR-2` model is first supported in `vllm-ascend:v0.16.0` and can stably run in v0.16.0 and later version.

This document will show the main verification steps of the model, including supported features, feature configuration, environment preparation, single-node deployment, accuracy and performance evaluation.

## Supported Features

Refer to [supported features](../../user_guide/support_matrix/supported_models.md) to get the model's supported feature matrix.

Refer to [feature guide](../../user_guide/feature_guide/index.md) to get the feature's configuration.

## Environment Preparation

### Model Weight

- `DeepSeek-OCR-2`: [Download model weight](https://huggingface.co/deepseek-ai/DeepSeek-OCR-2).

It is recommended to download the model weight to the shared directory of multiple nodes, such as `/root/.cache/`.

### Verify Multi-node Communication(Optional)

If you want to deploy multi-node environment, you need to verify multi-node communication according to [verify multi-node communication environment](../../installation.md#verify-multi-node-communication).

### Installation

You can use our official docker image to run `DeepSeek-OCR-2` directly.

Select an image based on your machine type and start the docker image on your node, refer to [using docker](../../installation.md#set-up-using-docker).

```{code-block} bash
   :substitutions:
# Update --device according to your device (Atlas A2: /dev/davinci[0-7] Atlas A3:/dev/davinci[0-15]).
# Update the vllm-ascend image according to your environment.
# Note you should download the weight to /root/.cache in advance.
# Update the vllm-ascend image
export IMAGE=m.daocloud.io/quay.io/ascend/vllm-ascend:|vllm_ascend_version|
export NAME=vllm-ascend

# Run the container using the defined variables
# Note: If you are running bridge network with docker, please expose available ports for multiple nodes communication in advance.
docker run --rm \
--name $NAME \
--net=host \
--shm-size=1g \
--device /dev/davinci0 \
--device /dev/davinci1 \
--device /dev/davinci2 \
--device /dev/davinci3 \
--device /dev/davinci4 \
--device /dev/davinci5 \
--device /dev/davinci6 \
--device /dev/davinci7 \
--device /dev/davinci_manager \
--device /dev/devmm_svm \
--device /dev/hisi_hdc \
-v /usr/local/dcmi:/usr/local/dcmi \
-v /usr/local/Ascend/driver/tools/hccn_tool:/usr/local/Ascend/driver/tools/hccn_tool \
-v /usr/local/bin/npu-smi:/usr/local/bin/npu-smi \
-v /usr/local/Ascend/driver/lib64/:/usr/local/Ascend/driver/lib64/ \
-v /usr/local/Ascend/driver/version.info:/usr/local/Ascend/driver/version.info \
-v /etc/ascend_install.info:/etc/ascend_install.info \
-v /root/.cache:/root/.cache \
-it $IMAGE bash
```

If you want to deploy multi-node environment, you need to set up environment on each node.

## Deployment

### Single-node Deployment

- `DeepSeek-OCR-2` can be deployed on 1 Atlas 800 A2.

Run the following script to execute online inference.

```shell
#!/bin/sh

export VLLM_USE_V1=1
export VLLM_ASCEND_ENABLE_NZ=0
export TOKENIZERS_PARALLELISM=false
export PYTORCH_NPU_ALLOC_CONF="expandable_segments:True"
export TASK_QUEUE_ENABLE=1
export TOKENIZERS_PARALLELISM=false

vllm serve /root/.cache/DeepSeek-OCR-2 \
    --served-model-name deepseekocr2 \
    --trust-remote-code \
    --tensor-parallel-size 1  \
    --port 1055 \
    --max_model_len 8192 \
    --no-enable-prefix-caching \
    --gpu-memory-utilization 0.8 \
    --allowed-local-media-path / \
    --async-scheduling \
    --additional-config '{
      "enable_cpu_binding": true,
      "multistream_overlap_shared_expert": true,
      "ascend_compilation_config": {"fuse_qknorm_rope": false}
    }' \
    --mm-processor-cache-gb 0
```

**Notice:**
The parameters are explained as follows:

- `--max-model-len` specifies the maximum context length - that is, the sum of input and output tokens for a single request.
- `--no-enable-prefix-caching` indicates that prefix caching is disabled. To enable it, remove this option.
- `--gpu-memory-utilization` represents the proportion of HBM that vLLM will use for actual inference. Its essential function is to calculate the available kv_cache size. During the warm-up phase (referred to as profile run in vLLM), vLLM records the peak GPU memory usage during an inference process with an input size of `--max-num-batched-tokens`. The available kv_cache size is then calculated as: `--gpu-memory-utilization` * HBM size - peak GPU memory usage. Therefore, the larger the value of `--gpu-memory-utilization`, the more kv_cache can be used. However, since the GPU memory usage during the warm-up phase may differ from that during actual inference (e.g., due to uneven EP load), setting `--gpu-memory-utilization` too high may lead to OOM (Out of Memory) issues during actual inference. The default value is `0.9`.
- `--async-scheduling` Asynchronous scheduling is a technique used to optimize inference efficiency. It allows non-blocking task scheduling to improve concurrency and throughput, especially when processing large-scale models.

### Multi-node Deployment

Single-node deployment is recommended.

### Prefill-Decode Disaggregation

We don't need to Prefill-Decode disaggregation

## Functional Verification

If your service start successfully, you can see the info shown below:

```bash
INFO:     Started server process [87471]
INFO:     Waiting for application startup.
INFO:     Application startup complete.
```

Once your server is started, you can query the model with input prompts:

```shell
curl http://<node0_ip>:<port>/v1/completions \
    -H "Content-Type: application/json" \
    -d '{
        "model": "deepseekocr2",
        "prompt": "The future of AI is",
        "max_completion_tokens": 50,
        "temperature": 0
    }'
```

## Accuracy Evaluation

Here is an accuracy evaluation methods.

### Using AISBench

1. Refer to [Using AISBench](../../developer_guide/evaluation/using_ais_bench.md) for details.

2. After execution, you can get the result, here is the result of `DeepSeek-OCR-2` for reference only.

| dataset | version | metric | mode | vllm-api-general-chat | note |
|----- | ----- | ----- | ----- | -----| ----- |
| textvqa | - | accuracy | gen | 50.28 | 1 Atlas 800 A2 |
| ominidocbench | - | accuracy | gen | 66.86 | 1 Atlas 800 A2 |

## Performance

### Using AISBench

Refer to [Using AISBench for performance evaluation](../../developer_guide/evaluation/using_ais_bench.md#execute-performance-evaluation) for details.

The performance result is:  

**Hardware**: A2-313T, 1 node

**Input/Output**: 1080P/256

**Performance**: TTFT = 2s, TPOT = 200ms, Average performance of each card is 864 TPS (Token Per Second).

## Best Practices

In this chapter, we recommend best practices. for details about best practices, see the "Single-node Deployment" section.

## FAQ

- **Q: Startup fails with HCCL port conflicts (address already bound). What should I do?**

  A: Clean up old processes and restart: `pkill -f vLLM*`.

- **Q: How to handle OOM or unstable startup?**

  A: Reduce `--max-num-seqs` and `--max-model-len` first. If needed, reduce concurrency and load-testing pressure (e.g., `max-concurrency` / `num-prompts`).
[Doc]Update DeepSeekOCR2.md for releases/v0.18.0 (#8604) <!-- Thanks for sending a pull request! BEFORE SUBMITTING, PLEASE READ https://docs.vllm.ai/en/latest/contributing/overview.html --> ### What this PR does / why we need it? <!-- - Please clarify what changes you are proposing. The purpose of this section is to outline the changes and how this PR fixes the issue. If possible, please consider writing useful notes for better and faster reviews in your PR. - Please clarify why the changes are needed. For instance, the use case and bug description. - Fixes # --> Update DeepSeekOCR2.md for releases/v0.18.0 ### Does this PR introduce _any_ user-facing change? <!-- Note that it means any user-facing change including all aspects such as API, interface or other behavior changes. Documentation-only updates are not considered user-facing changes. --> NO ### How was this patch tested? <!-- CI passed with new added/existing test. If it was tested in a way different from regular unit tests, please clarify how you tested step by step, ideally copy and paste-able, so that other reviewers can test and check, and descendants can verify in the future. If tests were not added, please describe why they were not added and/or why it was difficult to add. --> vLLM version: v0.18.0 vLLM main: https://github.com/vllm-project/vllm/commit/bcf2be96120005e9aea171927f85055a6a5c0cf6 --------- Signed-off-by: Wangbei25 <wangbei41@huawie.com> Signed-off-by: Wangbei25 <wangbei41@huawei.com> Co-authored-by: Wangbei25 <wangbei41@huawie.com> 2026-04-23 23:48:03 +08:00			`# DeepSeek-OCR-2`

			`## Introduction`

			`DeepSeekOCR2 is a model to investigate the role of vision encoders from an LLM-centric viewpoint.`

			The `DeepSeek-OCR-2` model is first supported in `vllm-ascend:v0.16.0` and can stably run in v0.16.0 and later version.

			`This document will show the main verification steps of the model, including supported features, feature configuration, environment preparation, single-node deployment, accuracy and performance evaluation.`

			`## Supported Features`

			`Refer to [supported features](../../user_guide/support_matrix/supported_models.md) to get the model's supported feature matrix.`

			`Refer to [feature guide](../../user_guide/feature_guide/index.md) to get the feature's configuration.`

			`## Environment Preparation`

			`### Model Weight`

			- `DeepSeek-OCR-2`: [Download model weight](https://huggingface.co/deepseek-ai/DeepSeek-OCR-2).

			It is recommended to download the model weight to the shared directory of multiple nodes, such as `/root/.cache/`.

			`### Verify Multi-node Communication(Optional)`

			`If you want to deploy multi-node environment, you need to verify multi-node communication according to [verify multi-node communication environment](../../installation.md#verify-multi-node-communication).`

			`### Installation`

			You can use our official docker image to run `DeepSeek-OCR-2` directly.

			`Select an image based on your machine type and start the docker image on your node, refer to [using docker](../../installation.md#set-up-using-docker).`

			```{code-block} bash
			`:substitutions:`
			`# Update --device according to your device (Atlas A2: /dev/davinci[0-7] Atlas A3:/dev/davinci[0-15]).`
			`# Update the vllm-ascend image according to your environment.`
			`# Note you should download the weight to /root/.cache in advance.`
			`# Update the vllm-ascend image`
			`export IMAGE=m.daocloud.io/quay.io/ascend/vllm-ascend:\|vllm_ascend_version\|`
			`export NAME=vllm-ascend`

			`# Run the container using the defined variables`
			`# Note: If you are running bridge network with docker, please expose available ports for multiple nodes communication in advance.`
			`docker run --rm \`
			`--name $NAME \`
			`--net=host \`
			`--shm-size=1g \`
			`--device /dev/davinci0 \`
			`--device /dev/davinci1 \`
			`--device /dev/davinci2 \`
			`--device /dev/davinci3 \`
			`--device /dev/davinci4 \`
			`--device /dev/davinci5 \`
			`--device /dev/davinci6 \`
			`--device /dev/davinci7 \`
			`--device /dev/davinci_manager \`
			`--device /dev/devmm_svm \`
			`--device /dev/hisi_hdc \`
			`-v /usr/local/dcmi:/usr/local/dcmi \`
			`-v /usr/local/Ascend/driver/tools/hccn_tool:/usr/local/Ascend/driver/tools/hccn_tool \`
			`-v /usr/local/bin/npu-smi:/usr/local/bin/npu-smi \`
			`-v /usr/local/Ascend/driver/lib64/:/usr/local/Ascend/driver/lib64/ \`
			`-v /usr/local/Ascend/driver/version.info:/usr/local/Ascend/driver/version.info \`
			`-v /etc/ascend_install.info:/etc/ascend_install.info \`
			`-v /root/.cache:/root/.cache \`
			`-it $IMAGE bash`
			```

			`If you want to deploy multi-node environment, you need to set up environment on each node.`

			`## Deployment`

			`### Single-node Deployment`

			- `DeepSeek-OCR-2` can be deployed on 1 Atlas 800 A2.

			`Run the following script to execute online inference.`

			```shell
			`#!/bin/sh`

			`export VLLM_USE_V1=1`
			`export VLLM_ASCEND_ENABLE_NZ=0`
			`export TOKENIZERS_PARALLELISM=false`
			`export PYTORCH_NPU_ALLOC_CONF="expandable_segments:True"`
			`export TASK_QUEUE_ENABLE=1`
			`export TOKENIZERS_PARALLELISM=false`

			`vllm serve /root/.cache/DeepSeek-OCR-2 \`
			`--served-model-name deepseekocr2 \`
			`--trust-remote-code \`
			`--tensor-parallel-size 1 \`
			`--port 1055 \`
			`--max_model_len 8192 \`
			`--no-enable-prefix-caching \`
			`--gpu-memory-utilization 0.8 \`
			`--allowed-local-media-path / \`
			`--async-scheduling \`
			`--additional-config '{`
			`"enable_cpu_binding": true,`
			`"multistream_overlap_shared_expert": true,`
			`"ascend_compilation_config": {"fuse_qknorm_rope": false}`
			`}' \`
			`--mm-processor-cache-gb 0`
			```

			`Notice:`
			`The parameters are explained as follows:`

			- `--max-model-len` specifies the maximum context length - that is, the sum of input and output tokens for a single request.
			- `--no-enable-prefix-caching` indicates that prefix caching is disabled. To enable it, remove this option.
			- `--gpu-memory-utilization` represents the proportion of HBM that vLLM will use for actual inference. Its essential function is to calculate the available kv_cache size. During the warm-up phase (referred to as profile run in vLLM), vLLM records the peak GPU memory usage during an inference process with an input size of `--max-num-batched-tokens`. The available kv_cache size is then calculated as: `--gpu-memory-utilization` * HBM size - peak GPU memory usage. Therefore, the larger the value of `--gpu-memory-utilization`, the more kv_cache can be used. However, since the GPU memory usage during the warm-up phase may differ from that during actual inference (e.g., due to uneven EP load), setting `--gpu-memory-utilization` too high may lead to OOM (Out of Memory) issues during actual inference. The default value is `0.9`.
			- `--async-scheduling` Asynchronous scheduling is a technique used to optimize inference efficiency. It allows non-blocking task scheduling to improve concurrency and throughput, especially when processing large-scale models.

			`### Multi-node Deployment`

			`Single-node deployment is recommended.`

			`### Prefill-Decode Disaggregation`

			`We don't need to Prefill-Decode disaggregation`

			`## Functional Verification`

			`If your service start successfully, you can see the info shown below:`

			```bash
			`INFO: Started server process [87471]`
			`INFO: Waiting for application startup.`
			`INFO: Application startup complete.`
			```

			`Once your server is started, you can query the model with input prompts:`

			```shell
			`curl http://<node0_ip>:<port>/v1/completions \`
			`-H "Content-Type: application/json" \`
			`-d '{`
			`"model": "deepseekocr2",`
			`"prompt": "The future of AI is",`
			`"max_completion_tokens": 50,`
			`"temperature": 0`
			`}'`
			```

			`## Accuracy Evaluation`

			`Here is an accuracy evaluation methods.`

			`### Using AISBench`

			`1. Refer to [Using AISBench](../../developer_guide/evaluation/using_ais_bench.md) for details.`

			2. After execution, you can get the result, here is the result of `DeepSeek-OCR-2` for reference only.

			`\| dataset \| version \| metric \| mode \| vllm-api-general-chat \| note \|`
			`\|----- \| ----- \| ----- \| ----- \| -----\| ----- \|`
			`\| textvqa \| - \| accuracy \| gen \| 50.28 \| 1 Atlas 800 A2 \|`
			`\| ominidocbench \| - \| accuracy \| gen \| 66.86 \| 1 Atlas 800 A2 \|`

			`## Performance`

			`### Using AISBench`

			`Refer to [Using AISBench for performance evaluation](../../developer_guide/evaluation/using_ais_bench.md#execute-performance-evaluation) for details.`

			`The performance result is:`

			`Hardware: A2-313T, 1 node`

			`Input/Output: 1080P/256`

			`Performance: TTFT = 2s, TPOT = 200ms, Average performance of each card is 864 TPS (Token Per Second).`

			`## Best Practices`

			`In this chapter, we recommend best practices. for details about best practices, see the "Single-node Deployment" section.`

			`## FAQ`

			`- Q: Startup fails with HCCL port conflicts (address already bound). What should I do?`

			A: Clean up old processes and restart: `pkill -f vLLM*`.

			`- Q: How to handle OOM or unstable startup?`

			A: Reduce `--max-num-seqs` and `--max-model-len` first. If needed, reduce concurrency and load-testing pressure (e.g., `max-concurrency` / `num-prompts`).