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Version: nightly

Benchmarking ONNX Models With DeepSparse

This page explains how to use DeepSparse Benchmarking utilities.

deepsparse.benchmark is a command-line (CLI) tool for benchmarking DeepSparse with ONNX models. The tool will parse the arguments, download/compile the network into the engine, generate input tensors, and execute the model depending on the chosen scenario. By default, it will choose a multi-stream or asynchronous mode to optimize for throughput.

Installation Requirements

Use of the DeepSparse Benchmarking utilities requires installation of the DeepSparse.

Quickstart

To benchmark a dense BERT ONNX model fine-tuned on the SST2 dataset (which is identified by its SparseZoo stub), run:

deepsparse.benchmark zoo:nlp/text_classification/bert-base/pytorch/huggingface/sst2/base-none

Usage

In most cases, good performance will be found in the default options so usage can be as simple as running the command with a SparseZoo model stub or your local ONNX model. However, if you prefer to customize benchmarking for your personal use case, you can run deepsparse.benchmark -h or with --help to view your usage options:

CLI Arguments:

$ deepsparse.benchmark --help

> positional arguments:
>
> model_path Path to an ONNX model file or SparseZoo model stub.
>
> optional arguments:
>
> -h, --help show this help message and exit.
>
> -b BATCH_SIZE, --batch_size BATCH_SIZE
> The batch size to run the analysis for. Must be
> greater than 0.
>
> -shapes INPUT_SHAPES, --input_shapes INPUT_SHAPES
> Override the shapes of the inputs, i.e. -shapes
> "[1,2,3],[4,5,6],[7,8,9]" results in input0=[1,2,3]
> input1=[4,5,6] input2=[7,8,9].
>
> -ncores NUM_CORES, --num_cores NUM_CORES
> The number of physical cores to run the analysis on,
> defaults to all physical cores available on the system.
>
> -s {async,sync,elastic}, --scenario {async,sync,elastic}
> Choose between using the async, sync and elastic
> scenarios. Sync and async are similar to the single-
> stream/multi-stream scenarios. Elastic is a newer
> scenario that behaves similarly to the async scenario
> but uses a different scheduling backend. Default value
> is async.
>
> -t TIME, --time TIME
> The number of seconds the benchmark will run. Default
> is 10 seconds.
>
> -w WARMUP_TIME, --warmup_time WARMUP_TIME
> The number of seconds the benchmark will warmup before
> running.Default is 2 seconds.
>
> -nstreams NUM_STREAMS, --num_streams NUM_STREAMS
> The number of streams that will submit inferences in
> parallel using async scenario. Default is
> automatically determined for given hardware and may be
> sub-optimal.
>
> -pin {none,core,numa}, --thread_pinning {none,core,numa}
> Enable binding threads to cores ('core' the default),
> threads to cores on sockets ('numa'), or disable
> ('none').
>
> -e {deepsparse,onnxruntime}, --engine {deepsparse,onnxruntime}
> Inference engine backend to run eval on. Choices are
> 'deepsparse', 'onnxruntime'. Default is 'deepsparse'.
>
> -q, --quiet Lower logging verbosity.
>
> -x EXPORT_PATH, --export_path EXPORT_PATH
> Store results into a JSON file.

PRO TIP: Save your benchmark results in a convenient JSON file.

The following is an example CLI command for benchmarking an ONNX model from the SparseZoo and saving the results to a benchmark.json file:

deepsparse.benchmark zoo:nlp/text_classification/bert-base/pytorch/huggingface/sst2/base-none -x benchmark.json

Sample CLI Argument Configurations

To run a sparse FP32 MobileNetV1 at batch size 16 for 10 seconds for throughput using 8 streams of requests, use:

deepsparse.benchmark zoo:cv/classification/mobilenet_v1-1.0/pytorch/sparseml/imagenet/pruned-moderate --batch_size 16 --time 10 --scenario async --num_streams 8

To run a sparse quantized INT8 6-layer BERT at batch size 1 for latency, use:

deepsparse.benchmark zoo:nlp/question_answering/bert-base/pytorch/huggingface/squad/pruned_quant_6layers-aggressive_96 --batch_size 1 --scenario sync

Inference Scenarios

Synchronous (Single-Stream) Scenario

Set by the --scenario sync argument, the goal metric is latency per batch (ms/batch). This scenario submits a single inference request at a time to the engine, recording the time taken for a request to return an output. This mimics an edge deployment scenario.

The latency value reported is the mean of all latencies recorded during the execution period for the given batch size.

Asynchronous (Multi-Stream) Scenario

Set by the --scenario async argument, the goal metric is throughput in items per second (i/s). This scenario submits --num_streams concurrent inference requests to the engine, recording the time taken for each request to return an output. This mimics a model server or bulk batch deployment scenario.

The throughput value reported comes from measuring the number of finished inferences within the execution time and the batch size.

Example Benchmarking Output of Synchronous vs. Asynchronous

BERT 3-layer FP32 Sparse Throughput

There is no need to add a scenario argument since async is the default option:

$ deepsparse.benchmark zoo:nlp/question_answering/bert-base/pytorch/huggingface/squad/pruned_3layers-aggressive_83

> [INFO benchmark_model.py:202 ] Thread pinning to cores enabled
> DeepSparse Engine, Copyright 2021-present / Neuralmagic, Inc. version: 0.10.0 (9bba6971) (optimized) (system=avx512, binary=avx512)
> [INFO benchmark_model.py:247 ] deepsparse.engine.Engine:
> onnx_file_path: /home/mgoin/.cache/sparsezoo/c89f3128-4b87-41ae-91a3-eae8aa8c5a7c/model.onnx
> batch_size: 1
> num_cores: 18
> scheduler: Scheduler.multi_stream
> cpu_avx_type: avx512
> cpu_vnni: False
> [INFO onnx.py:176 ] Generating input 'input_ids', type = int64, shape = [1, 384]
> [INFO onnx.py:176 ] Generating input 'attention_mask', type = int64, shape = [1, 384]
> [INFO onnx.py:176 ] Generating input 'token_type_ids', type = int64, shape = [1, 384]
> [INFO benchmark_model.py:264 ] num_streams default value chosen of 9. This requires tuning and may be sub-optimal
> [INFO benchmark_model.py:270 ] Starting 'async' performance measurements for 10 seconds
> Original Model Path: zoo:nlp/question_answering/bert-base/pytorch/huggingface/squad/pruned_3layers-aggressive_83
> Batch Size: 1
> Scenario: multistream
> Throughput (items/sec): 83.5037
> Latency Mean (ms/batch): 107.3422
> Latency Median (ms/batch): 107.0099
> Latency Std (ms/batch): 12.4016
> Iterations: 840

BERT 3-layer FP32 Sparse Latency

To select a synchronous inference scenario, add -s sync:

$ deepsparse.benchmark zoo:nlp/question_answering/bert-base/pytorch/huggingface/squad/pruned_3layers-aggressive_83 -s sync

> [INFO benchmark_model.py:202 ] Thread pinning to cores enabled
> DeepSparse Engine, Copyright 2021-present / Neuralmagic, Inc. version: 0.10.0 (9bba6971) (optimized) (system=avx512, binary=avx512)
> [INFO benchmark_model.py:247 ] deepsparse.engine.Engine:
> onnx_file_path: /home/mgoin/.cache/sparsezoo/c89f3128-4b87-41ae-91a3-eae8aa8c5a7c/model.onnx
> batch_size: 1
> num_cores: 18
> scheduler: Scheduler.single_stream
> cpu_avx_type: avx512
> cpu_vnni: False
> [INFO onnx.py:176 ] Generating input 'input_ids', type = int64, shape = [1, 384]
> [INFO onnx.py:176 ] Generating input 'attention_mask', type = int64, shape = [1, 384]
> [INFO onnx.py:176 ] Generating input 'token_type_ids', type = int64, shape = [1, 384]
> [INFO benchmark_model.py:270 ] Starting 'sync' performance measurements for 10 seconds
> Original Model Path: zoo:nlp/question_answering/bert-base/pytorch/huggingface/squad/pruned_3layers-aggressive_83
> Batch Size: 1
> Scenario: singlestream
> Throughput (items/sec): 62.1568
> Latency Mean (ms/batch): 16.0732
> Latency Median (ms/batch): 15.7850
> Latency Std (ms/batch): 1.0427
> Iterations: 622