Thank you for the interest in DAWNBench!
To add your model to our leaderboard, open a Pull Request with title <Model name> || <Task name> || <Author name>
(example PR), with JSON
(and TSV where applicable) result files in the format outlined below.
- CIFAR10 Training
- CIFAR10 Inference
- ImageNet Training
- ImageNet Inference
- SQuAD Training
- SQuAD Inference
We evaluate image classification performance on the CIFAR10 dataset.
For training, we have two metrics:
- Training Time: Train an image classification model for the CIFAR10 dataset. Report the time needed to train a model with test set accuracy of at least 94%
- Cost: On public cloud infrastructure, compute the total time needed to reach a test set accuracy of 94% or greater, as outlined above. Multiply the time taken (in hours) by the cost of the instance per hour, to obtain the total cost of training the model
Including cost is optional and will only be calculated if the costPerHour
field is included in the JSON file.
Submissions that only aim for time aren't restricted to public cloud infrastructure.
Results for the CIFAR10 training tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model training was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblecostPerHour
: [Optional] Reported in USD ($). Cost of instance per hourtimestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training logsmisc
: [Optional] JSON object of other miscellaneous notes, such as learning rate schedule, optimization algorithm, framework version, etc.
In addition, report training progress at the end of every epoch in a TSV with the following format,
epoch\thours\ttop1Accuracy
We will compute time to reach a test set accuracy of 94% by reading off the first entry in the above TSV with a top-1 test set accuracy of at least 94%.
JSON and TSV files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_resnet56_1k80-gc_tensorflow.[json|tsv]
. Put the JSON and TSV files in the CIFAR10/train/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow",
"model": "ResNet 56",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"costPerHour": 0.90,
"timestamp": "2017-08-14",
"misc": {}
}
epoch hours top1Accuracy
1 0.07166666666666667 33.57
2 0.1461111111111111 52.51
3 0.21805555555555556 61.71
4 0.2902777777777778 69.46
5 0.3622222222222222 71.47
6 0.43416666666666665 69.64
7 0.5061111111111111 75.81
We evaluate image classification performance on the CIFAR10 dataset.
For inference, we have two metrics:
- Latency: Use a model that has a test set accuracy of 94% or greater. Measure the total time needed to classify all 10,000 images in the CIFAR10 test set one-at-a-time, and then divide by 10,000
- Cost: Use a model that has a test set accuracy of 94% or greater. Measure the average per-image latency in the CIFAR10 test set, and then multiply by the cost of the instance per unit time
Results for the CIFAR10 inference tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model inference was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblelatency
: Reported in milliseconds. Time needed to classify one imagecost
: Reported in USD ($). Cost of performing inference on a single image. Computed ascostPerHour * latency
top1Accuracy
: Reported in percentage points from 0 to 100. Accuracy of model on CIFAR10 test dataset.timestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training / inference logsmisc
: [Optional] JSON object of other miscellaneous notes, such as batch size, framework version, etc.
Note that it is only necessary to specify one of the latency
and cost
fields outlined
above. However, it is encouraged to specify both (if available) in a single JSON result file.
JSON files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_resnet56_1k80-gc_tensorflow.json
. Put the JSON file in the CIFAR10/inference/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow",
"model": "ResNet 56",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"latency": 43.45,
"cost": 1e-6,
"accuracy": 94.45,
"timestamp": "2017-08-14",
"misc": {}
}
We evaluate image classification performance on the ImageNet dataset.
For training, we have two metrics:
- Training Time: Train an image classification model for the ImageNet dataset. Report the time needed to train a model with top-5 validation accuracy of at least 93%
- Cost: On public cloud infrastructure, compute the total time needed to reach a validation accuracy of 93% or greater, as outlined above. Multiply the time taken by the cost of the instance per hour, to obtain the total cost of training the model
Including cost is optional and will only be calculated if the costPerHour
field is included in the JSON file.
Submissions that only aim for time aren't restricted to public cloud infrastructure.
Results for the ImageNet training tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model training was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblecostPerHour
: [Optional] Reported in USD ($). Cost of instance per hourtimestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training logsmisc
: [Optional] JSON object of other miscellaneous notes, such as learning rate schedule, optimization algorithm, framework version, etc.
In addition, report training progress at the end of every epoch in a TSV with the following format,
epoch\thours\ttop1Accuracy\ttop5Accuracy
We will compute time to reach a top-5 validation accuracy of 93% by reading off the first entry in the above TSV with a top-5 validation accuracy of at least 93%.
JSON and TSV files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_resnet56_1k80-gc_tensorflow.[json|tsv]
. Put the JSON and TSV files in the ImageNet/train/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow",
"model": "ResNet 50",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"costPerHour": 0.90,
"timestamp": "2017-08-14",
"misc": {}
}
epoch hours top1Accuracy top5Accuracy
1 0.07166666666666667 33.57 68.93
2 0.1461111111111111 52.51 72.48
3 0.21805555555555556 61.71 81.46
4 0.2902777777777778 69.46 81.92
5 0.3622222222222222 71.47 82.17
6 0.43416666666666665 69.64 83.68
7 0.5061111111111111 75.81 84.31
We evaluate image classification performance on the ImageNet dataset.
For inference, we have two metrics:
- Latency: Use a model that has a top-5 validation accuracy of 93% or greater. Measure the total time needed to classify all 50,000 images in the ImageNet validation set one-at-a-time, and then divide by 50,000
- Cost: Use a model that has a top-5 validation accuracy of 93% or greater. Measure the average latency of performing inference on a single image (as described above), then multiply by cost of the instance per hour to get total time to perform inference
Results for the ImageNet inference tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model inference was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblelatency
: Reported in milliseconds. Time needed to classify one imagecost
: Reported in USD ($). Cost of performing inference on a single image. Computed ascostPerHour * latency
top5Accuracy
: Reported in percentage points from 0 to 100. Accuracy of model on ImageNet test dataset.timestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training / inference logsmisc
: [Optional] JSON object of other miscellaneous notes, such as batch size, framework version, etc.
Note that it is only necessary to specify one of the latency
and cost
fields outlined
above. However, it is encouraged to specify both (if available) in a single JSON result file.
JSON files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_resnet56_1k80-gc_tensorflow.json
. Put the JSON file in the ImageNet/inference/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow",
"model": "ResNet 50",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"latency": 43.45,
"cost": 4.27e-6,
"top5Accuracy": 93.45,
"timestamp": "2017-08-14",
"misc": {}
}
We evaluate question answering performance on the SQuAD dataset.
For training, we have two metrics:
- Training Time: Train a question answering model for the SQuAD dataset. Report the time needed to train a model with a dev set F1 score of at least 0.73
- Cost: On public cloud infrastructure, compute the total time needed to reach a dev set F1 score of 0.73 or greater, as outlined above. Multiply the time taken by the cost of the instance per hour, to obtain the total cost of training the model
Including cost is optional and will only be calculated if the costPerHour
field is included in the JSON file.
Submissions that only aim for time aren't restricted to public cloud infrastructure.
Results for the SQuAD training tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model training was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblecostPerHour
: [Optional] Reported in USD ($). Cost of instance per hourtimestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training / inference logsmisc
: [Optional] JSON object of other miscellaneous notes, such as learning rate schedule, optimization algorithm, framework version, etc.
In addition, report training progress at the end of every epoch in a TSV with the following format,
epoch\thours\tf1Score
We will compute time to reach a F1 score of 0.73 by reading off the first entry in the above TSV with a F1 score of at least 0.73.
JSON and TSV files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_bidaf_1k80-gc_tensorflow.[json|tsv]
. Put the JSON and TSV files in the SQuAD/train/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow_qa/bi-att-flow",
"model": "BiDAF",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"costPerHour": 0.90,
"timestamp": "2017-08-14",
"misc": {}
}
epoch hours f1Score
1 0.7638888888888888 0.5369029640999999
2 1.5238381055555557 0.6606892943
3 2.2855751 0.700419426
4 3.0448481305555557 0.7229908705
5 3.806446388888889 0.731013
6 4.5750864 0.7370445132
7 5.346703258333334 0.7413719296
We evaluate question answering performance on the SQuAD dataset.
For inference, we have two metrics:
- Latency: Use a model that has a dev set F1 measure of 0.73 or greater. Measure the total time needed to answer all questions in the SQuAD dev set one-at-a-time, and then divide by the number of questions
- Cost: Use a model that has a dev set F1 measure of 0.73 or greater. Measure the average latency needed to perform inference on a single question, and then multiply by the cost of the instance
Results for the SQuAD inference tasks can be reported using a JSON file with the following fields,
version
: DAWNBench competition version (currently v1.0)author
: Author nameauthorEmail
: Author emailframework
: Framework on which training / inference was performedcodeURL
: [Optional] URL pointing to code for modelmodel
: Model namehardware
: A short description of the hardware on which model inference was performed. If relevant, please specify Cloud provider and instance type to make results more reproduciblelatency
: Reported in milliseconds. Time needed to answer one questioncost
: Reported in USD ($). Cost of performing inference on a single question. Computed ascostPerHour * latency
f1Score
: Reported in fraction from 0.0 to 1.0. F1 score of model on SQuAD development datasettimestamp
: Date of submission in formatyyyy-mm-dd
logFilename
: [Optional] URL pointing to training / inference logsmisc
: [Optional] JSON object of other miscellaneous notes, such as batch size, framework version, etc.
Note that it is only necessary to specify one of the latency
and cost
fields outlined
above. However, it is encouraged to specify both (if available) in a single JSON result file.
JSON files are named [author name]_[model name]_[hardware tag]_[framework].json
, similar to
dawn_bidaf_1k80-gc_tensorflow.json
. Put the JSON file SQuAD/inference/
sub-directory.
{
"version": "v1.0",
"author": "Stanford DAWN",
"authorEmail": "dawn-bench@cs.stanford.edu",
"framework": "TensorFlow",
"codeURL": "https://github.com/stanford-futuredata/dawn-benchmark/tree/master/tensorflow_qa/bi-att-flow",
"model": "BiDAF",
"hardware": "1 K80 / 30 GB / 8 CPU (Google Cloud)",
"latency": 590.0,
"cost": 2e-6,
"f1Score": 0.7524165510999999,
"timestamp": "2017-08-14",
"misc": {}
}
- Can spot instances be used for cost metrics? For submissions including cost, please use on-demand, i.e., non-preemptible, instance pricing. Spot pricing is too volatile for the current release the benchmark. We're open to suggestions on better ways to deal with pricing volatility, so if you have ideas, please pitch them on the google group
- Is validation time included in training time? No, you don't need to include the time required to calculate validation accuracy and save checkpoints.
- What happens after I submit a pull request with a new result? After you submit a PR, unit tests should automatically run to determine basic requirements. Assuming the unit tests pass, we review the code and the submission. If it is sufficiently similar to existing results or the difference is easily justified, we accept the submission without reproducing. If there issues with the code or someone questions the results, the process is a little more complicated and can vary from situation to situation. If the issues are small, it may be as simple as changing the JSON file.
Disclosure: The Stanford DAWN research project is a five-year industrial affiliates program at Stanford University and is financially supported in part by founding members including Intel, Microsoft, NEC, Teradata, VMWare, and Google. For more information, including information regarding Stanford’s policies on openness in research and policies affecting industrial affiliates program membership, please see DAWN's membership page.