With today’s tools, anyone can collect data from almost anywhere, but not everyone can pull the important nuggets out of that data. Whacking your data into Tableau is an OK start, but it’s not going to give you the business critical insights you’re looking for. To truly make your data come alive you need to mine it. Dig deep. Play around. And tease out the diamond in the rough.
Read Complete Post on: blog.import.io
The objective of this blog post is to help you get started with Apache Zeppelin notebook for your R data science requirements. Zeppelin is a web-based notebook that enables interactive data analytics. You can make beautiful data-driven, interactive and collaborative documents with Scala(with Apache Spark), Python(with Apache Spark), SparkSQL, Hive, Markdown, Shell and more.
Read Complete Post on: sparkiq-labs
Let’s get started towards setting up a fresh Multinode Hadoop (2.6.0) cluster.
Read Complete Post on: pingax
So, why do we even need to run data science on cloud? You might raise this question that if a laptop can pack 64 GB RAM, do we even need cloud for data science? And the answer is a big YES for a variety of reasons. Here are a few of them.
Read Complete Post on: analyticsvidhya
If you’re interested in a career in data, and you’re familiar with the set of skills you’ll need to master, you know that Python and R are two of the most popular languages for data analysis. If you’re not exactly sure which to start learning first, you’re reading the right article.
When it comes to data analysis, both Python and R are simple (and free) to install and relatively easy to get started with. If you’re a newcomer to the world of data science and don’t have experience in either language, or with programming in general, it makes sense to be unsure whether to learn R or Python first.
Read Complete Post on: Udacity Blog
- 5 Best Machine Learning APIs for Data Science
- Big Data Top Trends In 2016
- Big Data: 4 Things You Can Do With It, And 3 Things You Can’t
TensorFlow™ is an open source software library for numerical computation using data flow graphs. Nodes in the graph represent mathematical operations, while the graph edges represent the multidimensional data arrays (tensors) communicated between them. The flexible architecture allows you to deploy computation to one or more CPUs or GPUs in a desktop, server, or mobile device with a single API. TensorFlow was originally developed by researchers and engineers working on the Google Brain Team within Google’s Machine Intelligence research organization for the purposes of conducting machine learning and deep neural networks research, but the system is general enough to be applicable in a wide variety of other domains as well.
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