Alex Miller
Northern Virginia Software Symposium
Reston · November 7 - 9, 2008
Sr. Engineer with Terracotta Inc.
Alex Miller is a Sr. Engineer with Terracotta Inc, the makers of the open-source Java clustering product Terracotta. Prior to Terracotta, Alex worked at BEA Systems on the AquaLogic product line and was Chief Architect at MetaMatrix. His interests include Java, concurrency, distributed systems, query languages, and software design. Alex enjoys writing his blog at http://tech.puredanger.com and has spoken at a number of Java user group meetings and conferences.
In St. Louis, Alex is responsible for founding the Lambda Lounge, a user group for the study of functional and dynamic languages.
Presentations
Java 7 Preview
Possible library and language changes for Java 7 have been in discussion since early 2007 and many things have been proposed. This talk will focus on those items that are most likely to be included and some of the more controversial language changes that might be included in a future release. For a comprehensive list of almost everything being considered, see http://tech.puredanger.com/java7.
Design Patterns Reconsidered
The Design Patterns book launched a revolution in object-oriented design and provided a vocabulary for OO developers to communicate their ideas. However, in some cases, patterns used blindly can lead to awkward, confusing, or hard to maintain code. It is time for some common patterns used in Java to be reconsidered so that we can derive the benefits from patterns while minimizing their concerns.
This talk will re-evaluate key patterns like Singleton, Template Method, Visitor, and Proxy. These patterns have downsides and in some cases, do more harm than good. Examples of each pattern will be give in Java and examined for clarity, testability, and flexibility. Important problems will be discussed and examples of alternate solutions will be given.
Exploring Terracotta
Terracotta is an open-source Java clustering technology. It creates a virtual, durable Java heap that is shared across a cluster of Java Virtual Machines. This is done by dynamically instrumenting bytecode at load time to intercept calls to read and write fields, and also to enter and exit monitor locks. Information about these calls is then transmitted to the Terracotta Server (which can also be clustered) and out to other nodes in the cluster as needed. The advantage of this approach is that many Java programs can be clustered without code changes by providing just external Terracotta configuration. Many performance optimizations are performed to minimize communication and locking costs. Terracotta is commonly used for session sharing in web applications, distributed caching, and distributed workflow processing.
This presentation will give an overview of the Terracotta technology, how it's implemented, and common use cases that can benefit from the technology. We will look at some code and cluster some Java applications during the presentation.