 | | A special-purpose PC/104 digital interface |
| A multitasking library for C and Basic |
| A prototyping card for PC/104 |
| A startup Linux system for embedded PC development |
| An RS232/RS485 async comm library for C and Basic |
| ALT Software provides DO-178B certifiable (up to Design Assurance Level A) OpenGL SC display drivers for embedded computing platforms |
| Parasoft Virtualize Cuts the Cost of Managing Application Environments While Delivering Comprehensive Access to Traditionally Constrained Test Environments |
 | | The Android SDK is an advantageous starting point for developing Android code, but the SDK can be enhanced significantly by integration with features from other Eclipse-based commercial products. | |
| A prototyping development board that plugs into a number of Texas Instruments DSP development systems |
| A prototyping development board that plugs into a number of Texas Instruments DSP development systems and provides a solution for prototyping circuits directly on the Texas Instruments DSK and EVM DSP development systems |
| A collection of Windows Vista/XP/NT/2000 programs, libraries, and device drivers that maximize particular VME processor board features on both local and remotely networked chassis |
| This paper discusses cutting-edge software development methods that enable software development teams to leverage new multicore technology, including an automated way to reuse single-core software for complex multi-core systems. Multicore architectures can become exponentially complex as the number of cores increases from two to four to thirty-two different cores. Meeting time-to-market requirements often means utilizing an organization’s existing software code even though existing code is mostly single-core source code and not optimized for multicore technology. The only way to handle the complexity is through automation and with a higher-level language that allows software deployment to be automated to different cores. |
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