The embedded market evolves rapidly, expanding the capabilities of each new device, and making the previous ones obsolete as technology advances. In order to achieve the high performance required by new embedded applications, these embedded processors are increasingly high–performance processors, with an increasing overlap between general–purpose and embedded processors. However, performance does not simply increase with technology advances, it is essential to find a way to translate technology into performance, and such is the role of the computer architect and compiler builder. <b>Keywords:</b> Processor architectures<br>Memory system optimization<br>Power, performance and implementation efficient designs<br>Network Processors<br>Security Processors<br>Application specific processors and accelerators<br>Reconfigurable architectures<br>Simulation and methodology<br>Compiler techniques for embedded processors<br>Feedback–directed optimization<br>Program characterization and analysis techniques<br>Dynamic compilation, adaptive execution, and continuous<br>profiling/optimization<br>Back–end code generation<br>Binary translation/optimization<br>Code size/memory footprint optimizations<br>
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HiPEAC
City
Ghent
Country
Belgium
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Abstract