Addresses the concept of network in three different contexts representing the deterministic, probabilistic, and statistical physics-inspired design paradigms.
Traditionally, design space exploration for Systems-on-Chip (SoCs) has focused on the computational aspects of the problem at hand. However, as the number of components on a single chip and their performance continue to increase, the communication architecture plays a major role in the area, performance and energy consumption of the overall system. As a result, a shift from computation-based to communication-based design becomes mandatory. Towards this end, network-on-chip (NoC) communication architectures have emerged recently as a promising alternative to classical bus and point-to-point communication architectures. In this dissertation, we study outstanding research problems related to modeling, analysis and optimization of NoC communication architectures. More precisely, we present novel design methodologies, software tools and FPGA prototypes to aid the design of application-specific NoCs.
In this book, Ioanid explores in great detail the physical destruction of Romania’s Jewish and Roma communities, including the pogroms of Bucharest and Iaşi as well as the deportations and the massacres from Bessarabia, Bukovina, and Transnistria. Based on thousands of archival documents and testimonies of survivors, The Holocaust in Romania sheds new light on Romania’s prefascist and fascist antisemitic legislation and its implementation. New chapters consider the forced labor of the Jews, persecution by the Protestant churches, and the decision-making process of the Antonescu government in its treatment of Jews and Roma. With this book, the Romanian Holocaust will no longer be forgotten.
Addresses the concept of network in three different contexts representing the deterministic, probabilistic, and statistical physics-inspired design paradigms.
Traditionally, design space exploration for Systems-on-Chip (SoCs) has focused on the computational aspects of the problem at hand. However, as the number of components on a single chip and their performance continue to increase, the communication architecture plays a major role in the area, performance and energy consumption of the overall system. As a result, a shift from computation-based to communication-based design becomes mandatory. Towards this end, network-on-chip (NoC) communication architectures have emerged recently as a promising alternative to classical bus and point-to-point communication architectures. In this dissertation, we study outstanding research problems related to modeling, analysis and optimization of NoC communication architectures. More precisely, we present novel design methodologies, software tools and FPGA prototypes to aid the design of application-specific NoCs.
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