Summary

This edited volume surveys research and practical work in high-performance embedded systems, covering parallel computing, communication architectures, application-specific systems, and project case studies. Readers will learn design strategies, optimization techniques, and real-world examples for building high-throughput, low-latency embedded platforms.

Key Takeaways

• Assess parallel and multicore architectures applicable to embedded systems and identify performance trade-offs.
• Design and evaluate communication architectures to meet latency and bandwidth requirements in high-performance devices.
• Apply application-specific optimization techniques, including hardware/software co-design and FPGA acceleration, to improve throughput.
• Tune RTOS and scheduling approaches for real-time, high-performance embedded workloads and adapt designs into complete project prototypes.

Who Should Read This

Embedded systems engineers, firmware architects, and researchers with intermediate-to-advanced experience who want practical design patterns, optimization techniques, and project case studies for high-performance embedded systems.

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