# Reproducibility vLLM does not guarantee the reproducibility of the results by default, for the sake of performance. To achieve reproducible results, you need to turn off multiprocessing to make the scheduling deterministic by setting `VLLM_ENABLE_V1_MULTIPROCESSING=0`. Example: [examples/offline_inference/reproducibility.py](../../examples/offline_inference/reproducibility.py) !!! warning Applying the above settings [changes the random state in user code](#locality-of-random-state). !!! note Even with the above settings, vLLM only provides reproducibility when it runs on the same hardware and the same vLLM version. Also, the online serving API (`vllm serve`) does not support reproducibility because it is almost impossible to make the scheduling deterministic in the online setting. ## Setting the global seed The `seed` parameter in vLLM is used to control the random states for various random number generators. If a specific seed value is provided, the random states for `random`, `np.random`, and `torch.manual_seed` will be set accordingly. However, in some cases, setting the seed will also [change the random state in user code](#locality-of-random-state). ### Default Behavior In V1, the `seed` parameter defaults to `0` which sets the random state for each worker, so the results will remain consistent for each vLLM run even if `temperature > 0`. !!! note It is impossible to un-specify a seed for V1 because different workers need to sample the same outputs for workflows such as speculative decoding. For more information, see: ### Locality of random state The random state in user code (i.e. the code that constructs [LLM][vllm.LLM] class) is updated by vLLM under the following conditions: - For V0: The seed is specified. - For V1: The workers are run in the same process as user code, i.e.: `VLLM_ENABLE_V1_MULTIPROCESSING=0`. By default, these conditions are not active so you can use vLLM without having to worry about accidentally making deterministic subsequent operations that rely on random state.