Resumen:
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Tablets and smartphones are some of the many intelligent devices that dominate the consumer electronics market. These systems are complex to design as they must execute multiple applications (e.g.: real-time video processing, 3D games, or wireless communications), while meeting additional design constraints, such as low energy consumption, reduced implementation size and, of course, a short time-to-market. Internally, they rely on Multi-processor Systems on Chip (MPSoCs) as their main processing cores, to meet the tight design constraints: performance, size, power consumption, etc. In a bad design, the high logic density may generate hotspots that compromise the chip reliability. This thesis introduces a FPGA-based emulation framework for easy exploration of SoC design alternatives. It provides fast and accurate estimations of performance, power, temperature, and reliability in one unified flow, to help designers tune their system architecture before going to silicon.
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