This tutorial is a sequel of of Matteo Lissandrini's "Installing HDFS and Hadoop 2.X on a Multi-node cluster with Ubuntu 14.0.
That guide can also be used to install Hadoop 1.x (with minor if none modification); in this work we will assume that you have followed that tutorial and have installed Hadoop 1.x and HDFS.
Even thought HBase 0.94.x can run against both Hadoop 1.x and 2.x versions (see HBase 0.94 book) we highly recommend to use Hadoop 1.x for HBase 0.x and Hadoop 2.x for HBase 1.x and 2.x.
We wish also to inform you that also this tutorial can be applied to HBase 1.x and 2.x (with minor if none modification).
The following steps will be needed only once. Download HBase 0.94.X stable, to do so navigate in the List of Mirrors select one and decide which version to download. For the sake of simplicity from now on we will assume tho have chosen version 0.94.27.
For example wget can be used:
# from eu wget https://www.eu.apache.org/dist/hbase/hbase-0.94.27/hbase-0.94.27.tar.gz # from us wget https://www.us.apache.org/dist/hbase/hbase-0.94.27/hbase-0.94.27.tar.gz
Then extract the tar to the final installation directory, fix also permission and create a version agnostic symlink.
In this tutorial we will use the standard /usr/local/ as installation directory but obviously you are free to chose the one you prefer.
# extract & copy sudo tar -zxf hbase-0.94.27.tar.gz -C /usr/local/ # fix permission sudo chown -R hduser:hadoop /usr/local/hbase-hbase-0.94.27/ # create symlink sudo ln -s /usr/local/hbase-0.94.27/ /usr/local/hbase
Carnot’s cycle, Carnot’s theorem, the absolute thermodynamic scale of temperature, the physical significance of entropy, and the T-S diagram. Thermodynamic Potentials: Internal Energy ( ), Helmholtz Free Energy ( ), Enthalpy ( ), and Gibbs Free Energy (
It provides equal depth to both classical thermodynamics (macroscopic) and kinetic theory/statistical mechanics (microscopic).
: Step-by-step mathematical proofs clarify complex thermodynamic laws.
The international gold standard for conceptual clarity in classical thermodynamics.
Reversible and irreversible processes, Carnot engine, efficiency limits, and the Kelvin-Planck and Clausius statements.
Application of statistical laws to understand Planck’s Law and Wien’s Displacement Law.
: Free energies, equilibria, and the Clausius-Clapeyron equation.
The book is widely available in budget-friendly Indian student editions through major e-commerce platforms. Core Pillars of the Textbook
Reversible and irreversible processes, Carnot engine efficiency, and the absolute scale of temperature.
Carnot’s cycle, Carnot’s theorem, the absolute thermodynamic scale of temperature, the physical significance of entropy, and the T-S diagram. Thermodynamic Potentials: Internal Energy ( ), Helmholtz Free Energy ( ), Enthalpy ( ), and Gibbs Free Energy (
It provides equal depth to both classical thermodynamics (macroscopic) and kinetic theory/statistical mechanics (microscopic).
: Step-by-step mathematical proofs clarify complex thermodynamic laws. thermal physics by ab gupta pdf
The international gold standard for conceptual clarity in classical thermodynamics.
Reversible and irreversible processes, Carnot engine, efficiency limits, and the Kelvin-Planck and Clausius statements. The international gold standard for conceptual clarity in
Application of statistical laws to understand Planck’s Law and Wien’s Displacement Law.
: Free energies, equilibria, and the Clausius-Clapeyron equation. : Free energies
The book is widely available in budget-friendly Indian student editions through major e-commerce platforms. Core Pillars of the Textbook
Reversible and irreversible processes, Carnot engine efficiency, and the absolute scale of temperature.
That's the end of the journey: enjoy your new HBase cluster!
Start it running start-hbase.sh