bachelorThesis/queries.txt
2021-04-27 14:18:14 +02:00

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The Google 2019 Borg cluster traces analysis were conducted by using Apache
Spark and its Python 3 API (pyspark). Spark was used to execute a series of
queries to perform various sums and aggregations over the entire dataset
provided by Google.
In general, each query follows a general Map-Reduce template, where traces are
first read, parsed, filtered by performing selections, projections and computing
new derived fields. Then, the trace records are often grouped by one of their
fields, clustering related data toghether before a reduce or fold operation is
applied to each grouping.
Most input data is in JSONL format and adheres to a schema Google profided in
the form of a protobuffer specification located here:
https://github.com/google/cluster-data/blob/master/clusterdata_trace_format_v3.proto
On of the main quirks in the traces is that fields that have a "zero" value
(i.e. a value like 0 or the empty string) are often omitted in the JSON object
records. When reading the traces in Apache Spark is therefore necessary to check
for this possibility and populate those zero fields when omitted.
Most queries use only two or three fields in each trace records, while the
original records often are made of a couple of dozen fields. In order to save
memory during the query, a projection is often applied to the data by the means
of a .map() operation over the entire trace set, performed using Spark's RDD
API.
Another operation that is often necessary to perform prior to the Map-Reduce core of
each query is a record filtering process, which is often motivated by the
presence of incomplete data (i.e. records which contain fields whose values is
unknown). This filtering is performed using the .filter() operation of Spark's
RDD API.
The core of each query is often a groupBy followed by a map() operation on the
aggregated data. The groupby groups the set of all records into several subsets
of records each having something in common. Then, each of this small clusters is
reduced with a .map() operation to a single record. The motivation behind this
computation is often to analyze a time series of several different traces of
programs. This is implemented by groupBy()-ing records by program id, and then
map()-ing each program trace set by sorting by time the traces and computing the
desired property in the form of a record.
Sometimes intermediate results are saved in Spark's parquet format in order to
compute and save intermediate results beforehand.