work_year
int64 2.02k
2.02k
| experience_level
stringclasses 4
values | employment_type
stringclasses 4
values | job_title
stringlengths 9
40
| salary
int64 6k
30.4M
| salary_currency
stringclasses 20
values | salary_in_usd
int64 5.13k
450k
| employee_residence
stringlengths 2
2
| remote_ratio
int64 0
100
| company_location
stringlengths 2
2
| company_size
stringclasses 3
values |
---|---|---|---|---|---|---|---|---|---|---|
2,023 | SE | FT | Principal Data Scientist | 80,000 | EUR | 85,847 | ES | 100 | ES | L |
2,023 | MI | CT | ML Engineer | 30,000 | USD | 30,000 | US | 100 | US | S |
2,023 | MI | CT | ML Engineer | 25,500 | USD | 25,500 | US | 100 | US | S |
2,023 | SE | FT | Data Scientist | 175,000 | USD | 175,000 | CA | 100 | CA | M |
2,023 | SE | FT | Data Scientist | 120,000 | USD | 120,000 | CA | 100 | CA | M |
2,023 | SE | FT | Applied Scientist | 222,200 | USD | 222,200 | US | 0 | US | L |
2,023 | SE | FT | Applied Scientist | 136,000 | USD | 136,000 | US | 0 | US | L |
2,023 | SE | FT | Data Scientist | 219,000 | USD | 219,000 | CA | 0 | CA | M |
2,023 | SE | FT | Data Scientist | 141,000 | USD | 141,000 | CA | 0 | CA | M |
2,023 | SE | FT | Data Scientist | 147,100 | USD | 147,100 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 90,700 | USD | 90,700 | US | 0 | US | M |
2,023 | SE | FT | Data Analyst | 130,000 | USD | 130,000 | US | 100 | US | M |
2,023 | SE | FT | Data Analyst | 100,000 | USD | 100,000 | US | 100 | US | M |
2,023 | EN | FT | Applied Scientist | 213,660 | USD | 213,660 | US | 0 | US | L |
2,023 | EN | FT | Applied Scientist | 130,760 | USD | 130,760 | US | 0 | US | L |
2,023 | SE | FT | Data Modeler | 147,100 | USD | 147,100 | US | 0 | US | M |
2,023 | SE | FT | Data Modeler | 90,700 | USD | 90,700 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 170,000 | USD | 170,000 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 150,000 | USD | 150,000 | US | 0 | US | M |
2,023 | MI | FT | Data Analyst | 150,000 | USD | 150,000 | US | 100 | US | M |
2,023 | MI | FT | Data Analyst | 110,000 | USD | 110,000 | US | 100 | US | M |
2,023 | SE | FT | Research Engineer | 275,000 | USD | 275,000 | DE | 0 | DE | M |
2,023 | SE | FT | Research Engineer | 174,000 | USD | 174,000 | DE | 0 | DE | M |
2,023 | SE | FT | Analytics Engineer | 230,000 | USD | 230,000 | GB | 100 | GB | M |
2,023 | SE | FT | Analytics Engineer | 143,200 | USD | 143,200 | GB | 100 | GB | M |
2,023 | SE | FT | Business Intelligence Engineer | 225,000 | USD | 225,000 | US | 0 | US | M |
2,023 | SE | FT | Business Intelligence Engineer | 156,400 | USD | 156,400 | US | 0 | US | M |
2,023 | SE | FT | Machine Learning Engineer | 200,000 | USD | 200,000 | US | 0 | US | M |
2,023 | SE | FT | Machine Learning Engineer | 130,000 | USD | 130,000 | US | 0 | US | M |
2,023 | SE | FT | Data Strategist | 90,000 | USD | 90,000 | CA | 0 | CA | M |
2,023 | SE | FT | Data Strategist | 72,000 | USD | 72,000 | CA | 0 | CA | M |
2,023 | SE | FT | Data Engineer | 253,200 | USD | 253,200 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 90,700 | USD | 90,700 | US | 0 | US | M |
2,023 | SE | FT | Computer Vision Engineer | 342,810 | USD | 342,810 | US | 0 | US | M |
2,023 | SE | FT | Computer Vision Engineer | 184,590 | USD | 184,590 | US | 0 | US | M |
2,023 | MI | FT | Data Engineer | 162,500 | USD | 162,500 | US | 0 | US | M |
2,023 | MI | FT | Data Engineer | 130,000 | USD | 130,000 | US | 0 | US | M |
2,023 | MI | FT | Data Analyst | 105,380 | USD | 105,380 | US | 0 | US | M |
2,023 | MI | FT | Data Analyst | 64,500 | USD | 64,500 | US | 0 | US | M |
2,023 | EN | FT | Data Quality Analyst | 100,000 | USD | 100,000 | NG | 100 | NG | L |
2,023 | EN | FT | Compliance Data Analyst | 30,000 | USD | 30,000 | NG | 100 | NG | L |
2,022 | MI | FT | Machine Learning Engineer | 1,650,000 | INR | 20,984 | IN | 50 | IN | L |
2,023 | EN | FT | Applied Scientist | 204,620 | USD | 204,620 | US | 0 | US | L |
2,023 | EN | FT | Applied Scientist | 110,680 | USD | 110,680 | US | 0 | US | L |
2,023 | SE | FT | Data Engineer | 270,703 | USD | 270,703 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 221,484 | USD | 221,484 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 212,750 | USD | 212,750 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 185,000 | USD | 185,000 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 262,000 | USD | 262,000 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 245,000 | USD | 245,000 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 275,300 | USD | 275,300 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 183,500 | USD | 183,500 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 218,500 | USD | 218,500 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 199,098 | USD | 199,098 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 203,300 | USD | 203,300 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 123,600 | USD | 123,600 | US | 100 | US | M |
2,023 | SE | FT | Research Engineer | 189,110 | USD | 189,110 | US | 0 | US | M |
2,023 | SE | FT | Research Engineer | 139,000 | USD | 139,000 | US | 0 | US | M |
2,023 | EX | FT | Data Scientist | 258,750 | USD | 258,750 | US | 0 | US | M |
2,023 | EX | FT | Data Scientist | 185,000 | USD | 185,000 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 231,500 | USD | 231,500 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 166,000 | USD | 166,000 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 172,500 | USD | 172,500 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 110,500 | USD | 110,500 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 238,000 | USD | 238,000 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 176,000 | USD | 176,000 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 237,000 | USD | 237,000 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 201,450 | USD | 201,450 | US | 100 | US | M |
2,023 | SE | FT | Applied Scientist | 309,400 | USD | 309,400 | US | 0 | US | L |
2,023 | SE | FT | Applied Scientist | 159,100 | USD | 159,100 | US | 0 | US | L |
2,023 | SE | FT | Data Engineer | 115,000 | USD | 115,000 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 81,500 | USD | 81,500 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 237,000 | USD | 237,000 | US | 100 | US | M |
2,023 | SE | FT | Data Scientist | 201,450 | USD | 201,450 | US | 100 | US | M |
2,023 | SE | FT | Computer Vision Engineer | 280,000 | USD | 280,000 | US | 0 | US | M |
2,023 | SE | FT | Computer Vision Engineer | 210,000 | USD | 210,000 | US | 0 | US | M |
2,023 | SE | FT | Data Architect | 280,100 | USD | 280,100 | US | 100 | US | M |
2,023 | SE | FT | Data Architect | 168,100 | USD | 168,100 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 193,500 | USD | 193,500 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 139,000 | USD | 139,000 | US | 100 | US | M |
2,023 | MI | FT | Data Scientist | 510,000 | HKD | 65,062 | HK | 0 | HK | L |
2,023 | SE | FT | Machine Learning Engineer | 150,000 | USD | 150,000 | PT | 100 | US | M |
2,023 | MI | FT | Applied Machine Learning Engineer | 65,000 | EUR | 69,751 | IN | 100 | DE | S |
2,022 | EN | FT | AI Developer | 300,000 | USD | 300,000 | IN | 50 | IN | L |
2,023 | MI | FT | Machine Learning Engineer | 90,000 | EUR | 96,578 | NL | 100 | NL | L |
2,023 | SE | FT | Business Intelligence Engineer | 185,900 | USD | 185,900 | US | 0 | US | M |
2,023 | SE | FT | Business Intelligence Engineer | 129,300 | USD | 129,300 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 225,000 | USD | 225,000 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 175,000 | USD | 175,000 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 185,000 | USD | 185,000 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 140,000 | USD | 140,000 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 45,000 | EUR | 48,289 | ES | 0 | ES | M |
2,023 | SE | FT | Data Scientist | 36,000 | EUR | 38,631 | ES | 0 | ES | M |
2,023 | SE | FT | Data Scientist | 105,000 | USD | 105,000 | US | 0 | US | M |
2,023 | SE | FT | Data Scientist | 70,000 | USD | 70,000 | US | 0 | US | M |
2,023 | EN | FT | Machine Learning Engineer | 163,196 | USD | 163,196 | US | 0 | US | M |
2,023 | EN | FT | Machine Learning Engineer | 145,885 | USD | 145,885 | US | 0 | US | M |
2,023 | SE | FT | Data Engineer | 217,000 | USD | 217,000 | US | 100 | US | M |
2,023 | SE | FT | Data Engineer | 185,000 | USD | 185,000 | US | 100 | US | M |
2,023 | SE | FT | Data Analyst | 202,800 | USD | 202,800 | US | 0 | US | L |
Dataset Summary
Briefly summarize the dataset, its intended use and the supported tasks. Give an overview of how and why the dataset was created. The summary should explicitly mention the languages present in the dataset (possibly in broad terms, e.g. translations between several pairs of European languages), and describe the domain, topic, or genre covered.
Supported Tasks and Leaderboards
For each of the tasks tagged for this dataset, give a brief description of the tag, metrics, and suggested models (with a link to their HuggingFace implementation if available). Give a similar description of tasks that were not covered by the structured tag set (repace the task-category-tag
with an appropriate other:other-task-name
).
task-category-tag
: The dataset can be used to train a model for [TASK NAME], which consists in [TASK DESCRIPTION]. Success on this task is typically measured by achieving a high/low metric name. The (model name or model class) model currently achieves the following score. [IF A LEADERBOARD IS AVAILABLE]: This task has an active leaderboard which can be found at leaderboard url and ranks models based on metric name while also reporting other metric name.
Languages
Provide a brief overview of the languages represented in the dataset. Describe relevant details about specifics of the language such as whether it is social media text, African American English,...
When relevant, please provide BCP-47 codes, which consist of a primary language subtag, with a script subtag and/or region subtag if available.
Dataset Structure
Data Instances
Provide an JSON-formatted example and brief description of a typical instance in the dataset. If available, provide a link to further examples.
{
'example_field': ...,
...
}
Provide any additional information that is not covered in the other sections about the data here. In particular describe any relationships between data points and if these relationships are made explicit.
Data Fields
List and describe the fields present in the dataset. Mention their data type, and whether they are used as input or output in any of the tasks the dataset currently supports. If the data has span indices, describe their attributes, such as whether they are at the character level or word level, whether they are contiguous or not, etc. If the datasets contains example IDs, state whether they have an inherent meaning, such as a mapping to other datasets or pointing to relationships between data points.
example_field
: description ofexample_field
Note that the descriptions can be initialized with the Show Markdown Data Fields output of the Datasets Tagging app, you will then only need to refine the generated descriptions.
Data Splits
Describe and name the splits in the dataset if there are more than one.
Describe any criteria for splitting the data, if used. If there are differences between the splits (e.g. if the training annotations are machine-generated and the dev and test ones are created by humans, or if different numbers of annotators contributed to each example), describe them here.
Provide the sizes of each split. As appropriate, provide any descriptive statistics for the features, such as average length. For example:
train | validation | test | |
---|---|---|---|
Input Sentences | |||
Average Sentence Length |
Dataset Creation
Curation Rationale
What need motivated the creation of this dataset? What are some of the reasons underlying the major choices involved in putting it together?
Source Data
This section describes the source data (e.g. news text and headlines, social media posts, translated sentences,...)
Initial Data Collection and Normalization
Describe the data collection process. Describe any criteria for data selection or filtering. List any key words or search terms used. If possible, include runtime information for the collection process.
If data was collected from other pre-existing datasets, link to source here and to their Hugging Face version.
If the data was modified or normalized after being collected (e.g. if the data is word-tokenized), describe the process and the tools used.
Who are the source language producers?
State whether the data was produced by humans or machine generated. Describe the people or systems who originally created the data.
If available, include self-reported demographic or identity information for the source data creators, but avoid inferring this information. Instead state that this information is unknown. See Larson 2017 for using identity categories as a variables, particularly gender.
Describe the conditions under which the data was created (for example, if the producers were crowdworkers, state what platform was used, or if the data was found, what website the data was found on). If compensation was provided, include that information here.
Describe other people represented or mentioned in the data. Where possible, link to references for the information.
Annotations
If the dataset contains annotations which are not part of the initial data collection, describe them in the following paragraphs.
Annotation process
If applicable, describe the annotation process and any tools used, or state otherwise. Describe the amount of data annotated, if not all. Describe or reference annotation guidelines provided to the annotators. If available, provide interannotator statistics. Describe any annotation validation processes.
Who are the annotators?
If annotations were collected for the source data (such as class labels or syntactic parses), state whether the annotations were produced by humans or machine generated.
Describe the people or systems who originally created the annotations and their selection criteria if applicable.
If available, include self-reported demographic or identity information for the annotators, but avoid inferring this information. Instead state that this information is unknown. See Larson 2017 for using identity categories as a variables, particularly gender.
Describe the conditions under which the data was annotated (for example, if the annotators were crowdworkers, state what platform was used, or if the data was found, what website the data was found on). If compensation was provided, include that information here.
Personal and Sensitive Information
State whether the dataset uses identity categories and, if so, how the information is used. Describe where this information comes from (i.e. self-reporting, collecting from profiles, inferring, etc.). See Larson 2017 for using identity categories as a variables, particularly gender. State whether the data is linked to individuals and whether those individuals can be identified in the dataset, either directly or indirectly (i.e., in combination with other data).
State whether the dataset contains other data that might be considered sensitive (e.g., data that reveals racial or ethnic origins, sexual orientations, religious beliefs, political opinions or union memberships, or locations; financial or health data; biometric or genetic data; forms of government identification, such as social security numbers; criminal history).
If efforts were made to anonymize the data, describe the anonymization process.
Considerations for Using the Data
Social Impact of Dataset
Please discuss some of the ways you believe the use of this dataset will impact society.
The statement should include both positive outlooks, such as outlining how technologies developed through its use may improve people's lives, and discuss the accompanying risks. These risks may range from making important decisions more opaque to people who are affected by the technology, to reinforcing existing harmful biases (whose specifics should be discussed in the next section), among other considerations.
Also describe in this section if the proposed dataset contains a low-resource or under-represented language. If this is the case or if this task has any impact on underserved communities, please elaborate here.
Discussion of Biases
Provide descriptions of specific biases that are likely to be reflected in the data, and state whether any steps were taken to reduce their impact.
For Wikipedia text, see for example Dinan et al 2020 on biases in Wikipedia (esp. Table 1), or Blodgett et al 2020 for a more general discussion of the topic.
If analyses have been run quantifying these biases, please add brief summaries and links to the studies here.
Other Known Limitations
If studies of the datasets have outlined other limitations of the dataset, such as annotation artifacts, please outline and cite them here.
Additional Information
Dataset Curators
List the people involved in collecting the dataset and their affiliation(s). If funding information is known, include it here.
Licensing Information
Provide the license and link to the license webpage if available.
Citation Information
Provide the BibTex-formatted reference for the dataset. For example:
@article{article_id,
author = {Author List},
title = {Dataset Paper Title},
journal = {Publication Venue},
year = {2525}
}
If the dataset has a DOI, please provide it here.
Contributions
Thanks to @github-username for adding this dataset.
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