by Allen Downey
This tutorial is an introduction to Bayesian statistics using Python. My goal is to help participants understand the concepts and solve real problems. We will use material from my book, Think Stats: Probability and Statistics for Programmers (O’Reilly Media).
Bayesian statistical methods are becoming more common and more important, but there are not many resources to help beginners get started. People who know Python can use their programming skills to get a head start.
I will present simple programs that demonstrate the concepts of Bayesian statistics, and apply them to a range of example problems. Participants will work hands-on with example code and practice on example problems.
Students should have at least basic level Python and basic statistics. If you learned about Bayes’s Theorem and probability distributions at some time, that’s enough, even if you don’t remember it! Students should be comfortable with logarithms and plotting data on a log scale.
Students should bring a laptop with Python 2.x and matplotlib. You can work in any environment; you just need to be able to download a Python program and run it.
by Mike Müller
This tutorial provides an overview of techniques to improve the performance of Python programs. The focus is on concepts such as profiling, difference of data structures and algorithms as well as a selection of tools and libraries that help to speed up Python.
This tutorial provides an overview of techniques to improve the performance of Python programs. The focus is on concepts such as profiling, diffrence of data structures and algorithms as well as a selection of tools an libraries that help to speed up Python.
Python programmers who would like concepts to improve performance.
Programmers with good Python knowledge.
Please bring your laptop with the operating system of your choice (Linux, Mac OS X, Windows). In addition to Python 2.6 or 2.7, we need:
This is a hands-on course. Students are strongly encouraged to work along with the trainer at the interactive prompt. There will be exercises the students need to do on their own. Experience shows that this active involvement is essential for an effective learning.
We're going to mesh TDD, a desire to learn Python and Brazilian BBQ. Bring your laptop (having Python 2.x installed (will note 3.x differences)). This is hands on! You will program! It is assumed that you know how to program but perhaps not in Python. You start hungry and leave stuffed. We assume you know nothing and will stuff you with enough Python to be dangerous.
The tutorial works like this: There's a short presentation. A short testcase for you to complete. Rinse/repeat until we run out of time. Hopefully you'll walk away from this tutorial knowing how to write Python programs.
Course will cover:
There are short testcases to allow participants to practice concepts.
All participants will receive an ebook modeled on the tutorial, slides, a handout and assignments, as well as prizes for completion of assignments.
The Django framework is a fast, flexible, easy to learn, and easy to use framework for designing and deploying web sites and services using Python. In this session, we'll cover the fundamentals of development with Django, generate a Django data model, and put together a simple web site using the framework.
This tutorial introduces programmers with a basic Python skills to the concepts and techniques of event driven programming. The focus is on understanding an event loop and handling the events related to TCP connections. Twisted is introduced as a re-usable event loop implementation and the abstract concepts of event driven programming are related to specific uses of the Twisted library.
Relational databases are often the bread-and-butter of large-scale data storage, yet they are often poorly understood by Python programmers. Organizations even split programmers into SQL and front-end teams, each of which jealously guards its turf. These tutorials will take what you already know about Python programming, and advance into a new realm: SQL programming and database design.
The class will consist of six 25-minute lessons, each of which features a 10-minute lecture, 10 minutes of interesting exercises, and a 5-minute wrap-up in which the instructor recaps the exercises by giving his own answers. The focus will be on keeping things simple so that each building block is grasped clearly. The six lessons will be laid out something like this:
1. Tables, INSERT, and SELECT.
2. WHERE and the importance of being indexed.
3. FOREIGN KEY and JOIN
The exercises will present small Python scripts that post-process data, and ask students to write the equivalent GROUP BY / HAVING expressions to remove the need for the Python post-processing.
5. Modifying tables.
6. ORMs, Objects, and Tables.
Of course, mastery of these topics cannot be conveyed in a single three-hour course! The tutorial will have succeeded if students learn the main moving parts that are involved in a relationally-backed Python application, if they have gotten some practice with SQL and the kind of tasks that it seeks to simplify, and if they have a foundation upon which to build when they are next faced with writing or modifying Python code that interfaces with a SQL database.
by Carlos de la Guardia
Pyramid is the web framework at the core of the Pylons Project. It's a "pay only for what you eat" framework. You can get started easily and learn new concepts as you go, and only if you need them. It's simple, well tested, well documented, and fast. This course will present Pyramid and lead you through the creation of a an application as the concepts from the framework are introduced.
Pyramid is the web framework at the core of the Pylons Project. It’s a “pay only for what you eat” framework. You can get started easily and learn new concepts as you go, and only if you need them. It’s simple, well tested, well documented, and fast.
Though it’s in part inspired by Zope and uses concepts and software that may be familiar to Zope programmers, no prior Zope experience is required to use it. Also, unlike Zope, you don’t need to understand many concepts and technologies fully before you can be truly productive.
Pyramid is also inspired by Django and Pylons. It tries to learn valuable lessons from things that have gone well with different web frameworks and give the user great flexibility in applying them.
This course will present Pyramid and lead you through the creation of a an application as the concepts from the framework are introduced. The extensive Pyramid documentation will be used as “text book”.
by Wes McKinney
The tutorial will give a hands-on introduction to manipulating and analyzing large and small structured data sets in Python using the pandas library. While the focus will be on learning the nuts and bolts of the library's features, I also aim to demonstrate a different way of thinking regarding structuring data in memory for manipulation and analysis.
The tutorial will teach the mechanics of the most important features of pandas. It will be focused on the nuts and bolts of the two main data structures, Series (1D) and DataFrame (2D), as they relate to a variety of common data handling problems in Python. The tutorial will be supplemented by a collection of scripts and example data sets for the users to run while following along with the material. As such a significant part of the tutorial will be spend doing interactive data exploration and working examples from within the IPython console.
The tutorial will also teach participants best practices for structuring data in memory and the do's and don'ts of high performance computing with large data sets in Python. For participants who have never used IPython, this will also provide a gentle introduction to interactive scientific computing with IPython.
by Van Lindberg
Graphs are a fundamental datatype - but typical developers don't get as much exposure to using and working with graphs as with other datatypes like tables and queues. This is a from-the-ground up working session; by the end, attendees should have the tools and experience to model and analyze problems with graphs.
This tutorial is intended to bring somebody with Python experience but limited or no experience using graph-based algorithms to a place where they:
To do this, the tutorial is divided into four sections, each corresponding to one of the objectives above. Each portion will have a hands-on exercise pertaining to the exact subject, with part 4 as a crowning workshop bringing together various skills and points raised throughout the session; after having a few minutes to work on their own code and ask questions, the class as a whole will walk through a solution.
Are you new to Python and want to learn how to step it up to the next level? Have you wondered about functional programming, closures, decorators, context managers, generators or list comprehensions and when you should use them and how to test them? This hands-on tutorial will cover these intermediate subjects in detail, by explaining the theory behind them then walking through examples.
Tutorial will be in the the form of short lecture, short assignment to practice the concepts.
Attendees should come with a laptop and Python 2.x (3.x differences will be noted).
Tutorial will cover:
Materials include an ebook covering the material, slides, handout and assignment code. Prizes to be awarded for completion of assignment.
For many applications PyPy can provide performance benefits right out of the box. However, little details can push your application to perform much better. In this tutorial we'll give you insights on how to push pypy to it's limites. We'll focus on understanding the performance characteristics of PyPy, and learning the analysis tools in order to maximize your applications performance.
We aim to teach people how to use performance tools available for PyPy as well as to understand PyPy's performance characteristics. We'll explain how different parts of PyPy interact (JIT, the garbage collector, the virtual machine runtime) and how to measure which part is eating your time. We'll give you a tour with jitviewer which is a crucial tool for understanding how your Python got compiled to assembler and whether it's performing well. We also plan to show potential pitfalls and usage patterns in the Python language that perform better or worse in the case of PyPy.
We'll also briefly mention how to get your application running on PyPy and how to avoid common pitfalls there, like reference counting or relying on C modules.
This tutorial is intended for people familiar with Python who have performance problems, no previous experience with PyPy is needed. We ask people to come with their own problems and we'll provide some example ones. Attendees should have the latest version of PyPy preinstalled on their laptops.
by Rick Copeland and Bernie Hackett
This intermediate-level class will teach you techniques using the popular NoSQL database MongoDB, its driver PyMongo, and the object-document mapper Ming to write maintainable, high-performance, and scalable applications. We will cover everything you need to become an effective Ming/MongoDB developer from basic PyMongo queries to high-level object-document mapping setups in Ming.
The class will begin with a brief overview of MongoDB and its Python driver PyMongo. We will cover basic operations using PyMongo, including data manipulation, querying, and GridFS. Students will install MongoDB and PyMongo as part of this section.
We will then describe the design philosophy and setup of Ming, a SQLAlchemy-inspired object-document mapper (ODM) for MongoDB developed at SourceForge.
Next we will cover the base-level implementation of Ming, including schema design, the session and datastore, lazy migrations, data polymorphism, and GridFS support. We will also cover effective MongoDB index design, querying, and updating techniques, and how to use these with Ming. Students will install Ming as a part of this section, and have exercises covering schema design, lazy migrations, and GridFS.
The final segment will cover the object-document mapper portion of Ming. We will cover the unit of work design pattern, object relations, ODM-level polymorphism, and how to drop down to the base layer (or even down to pymongo) when you really need to. This section will include exercises in designing your ODM model and effectively using the unit-of-work session.
This talk targets Python 2.6-2.7 and MongoDB 2.0. Students should have Python 2.6 or 2.7 installed on their machines prior to the class and should be comfortable using virtualenv and pip or easy_install to install packages.
Learn how to build fast and interactive web applications using a wsgi compliant web framework and co-routines. Utilizing Redis/ZeroMQ, Socket.IO, and GEvent you will learn how to build a responsive and concurrent web app while maintaining good test coverage.
We will build a collaborative todo list system that will show you how to utilize Python, Redis/ZeroMQ, Socket.io, and GEvent for real-time communication.
We will focus on the following topics:
Using a wsgi framework to build a RESTful interface and hooking up socket.io to it.
Using socketio and redis/zeromq for subscribing to named channels and communicating in real-time over websockets.
Testing your real-time application
Deployment and Monitoring
A rough outline
GEvent (30 min)
Intro to GEvent and co-routines, what it is, how it works, the benefits of using it, and how simple it is to wrap your mind around a co-routine vs the callback methodology of threads.
ZeroMQ / Redis (30 min)
Intro to pub/sub, the communication model we'll use for our realtime communication and how to utilize ZeroMQ or Redis to achieve this.
Socket.IO and Backbone.js (30 min)
Discussion of Polling, Longpolling, Flash sockets, and web sockets and the benefits of each and how Socket.IO lets us not care. I will discuss how to get socket.io client side working with the server side.
Testing (15 min)
We will cover how to architect your co-routine based applications to make them easily testable and how to utilize mock to make things easier. We will cover the gotcha's of testing GEvent based code.
Deployment (15 min)
The final portion of the tutorial we discuss deployment and how to manage and monitor your WSGI server that is using GEvent patched libraries. This will cover basics on which webservers to use as well as exception handling.
We leave 30minutes of leeway to further discussion in a certain area that the students are most interested in as well as for questions on things specific that they feel I may not have covered so far.
I will provide the non-realtime code base for the application we will be working on and we will start from there and slowly add in support for the realtime communication as we discuss the technologies needed.
Most introductions to the web with gevent just show a basic chat application which leaves a lot of questions about where to go next once you are building a real application and I hope to cover all of those in this tutorial.
7th–15th March 2012