Perhaps more than any programming language, Java continues to have a profound impact on how people navigate today’s world. Java’s functionality is responsible for setting a great deal of what users expect in terms of performance from their internet accessible devices.
The history of Java is more than two decades long and the language continues to grow and adapt in response to evolving consumer and business expectations. Throughout all of these changes, however, the performance of Java applications remains a paramount concern for developers.
Perhaps more than any programming language, Java continues to
have a profound impact on how people navigate today’s world. Java’s
functionality is responsible for setting a great deal of what users expect
in terms of performance from their internet-accessible devices.
The history of Java is more than two decades long and the language
continues to grow and adapt in response to evolving consumer and
business expectations. Throughout all of these changes, however, the
performance of Java applications remains a paramount concern for
Join Forrester Vice President & Principal Analyst Jeffrey Hammond for an examination of the choices developers are making, trends in programming language adoption, adoption of frameworks, and how development projects are moving to the cloud.
A complex IT infrastructure is a stumbling block for many businesses seeking greater agility in these uncertain times. This white paper shows how a service oriented architecture (SOA) helps align the infrastructure with business needs in order to achieve maximum flexibility.
Get under the hood: This technical note describes how to transform XML response into a JavaT-usable response by creating Plain Old Java Objects (POJOs) and calling JAXB's unmarshal method. Simplify how to send requests to create new instances based on images that request parameters from Java classes.
Moving to C++ presents opportunities for higher programmer productivity. The requirements of embedded systems, however, demand that the adoption of C++ be carefully measured for the performance impact of run-time costs present in C++, but not in C. This talk suggests strategies for developers who are starting their acquaintance with C++.
No question the UI in electronic devices today is playing a larger role in the success of a device. Get the UI wrong and your product will have little chance of surviving. And it isn’t enough to deliver a UI that is merely functional: it has to look good too. Studies have shown that a good cosmetic design can encourage users to explore the full range of features and often, can engender the perception that a product is easier to use, which can make consumers more tolerant of product deficiencies. Learn more today!
How can you open your analytics program to all
types of programming languages and all levels of
users? And how can you ensure consistency across
your models and your resulting actions no matter
where they initiate in the company?
With today’s analytics technologies, the conversation
about open analytics and commerical analytics is no
longer an either/or discussion. You can now combine
the benefits of SAS and open source analytics
technology systems within your organization.
As we think about the entire analytics life cycle, it’s
important to consider data preparation, deployment,
performance, scalability and governance, in addition
to algorithms. Within that cycle, there’s a role for
open source and commercial analytics.
For example, machine learning algorithms can
be developed in SAS or Python, then deployed in
real-time data streams within SAS Event Stream
Processing, while also integrating with open systems
through Java and C APIs, RESTful web services,
Apache Kafka, HDFS and more.
If you specialize in relational database management technology, you’ve probably heard a lot about “big data” and the open source Apache Hadoop project. Perhaps you’ve also heard about IBM’s new Big SQL technology, which enables IBM® InfoSphere® BigInsights™ users to query Hadoop data using industry-standard SQL. Curious? This paper introduces you to Big SQL, answering many of the common questions that relational database management system (DBMS) users have about this IBM technology.
Whether you're in the market for a new ESP now or want to see how your current one stacks up, you'll find this whitepaper an invaluable resource. This whitepaper will help you take a thoughtful, informed approach to your ESP selection or comparison to your existing solution, so you can compare apples-to-oranges and still make a wise choice.
Published By: Quocirca
Published Date: Apr 09, 2008
Today, many organizations are increasingly reliant on software application development to deliver them competitive edge. Simultaneously, they are progressively opening up their computer networks to business partners, customers and suppliers and making use of next-generation programming languages and computing techniques to provide a richer experience for these users. However, hackers are refocusing their attention on the vulnerabilities and flaws contained in those applications.
National Instruments LabVIEW is a dataflow programming language, developers can write inherently parallel applications that can map to parallel hardware such as multicore processors and FPGAs for optimal performance. This white paper discusses dataflow programming and why NI LabVIEW is ideal for programming multicore systems.
Robot programmers frequently find it challenging to deliver material handling, arc welding, spot welding, or drill and riveting programs that work with certainty on the first run. Because robot programming is not part of the design phase, they are forced to implement fixes and workarounds on the shop floor. Costs escalate as production cycles expand and changes are made without knowledge of the shop floor impacts.
DELMIA Robotics on the Dassault Systèmes 3DEXPERIENCE platform delivers high quality, collision-free programs in the native robot language with no need for intervention on the shop floor. In the virtual world, programmers and designers work in concert to create the most productive tooling operations and robot cycle times. Programming can move ahead independently without interrupting production, and robot programs perform predictably the first time. Costs of programming and production are significantly reduced, and products move to market more quickly.
Learn how offline robot