Sustainable Wireless Network-on-Chip Architectures focuses on developing novel Dynamic Thermal Management (DTM) and Dynamic Voltage and Frequency Scaling (DVFS) algorithms that exploit the advantages inherent in WiNoC architectures. The methodologies proposed—combined with extensive experimental validation—collectively represent efforts to create a sustainable NoC architecture for future many-core chips. Current research trends show a necessary paradigm shift towards green and sustainable computing. As implementing massively parallel energy-efficient CPUs and reducing resource consumption become standard, and their speed and power continuously increase, energy issues become a significant concern. The need for promoting research in sustainable computing is imperative. As hundreds of cores are integrated in a single chip, designing effective packages for dissipating maximum heat is infeasible. Moreover, technology scaling is pushing the limits of affordable cooling, thereby requiring suitable design techniques to reduce peak temperatures. Addressing thermal concerns at different design stages is critical to the success of future generation systems. DTM and DVFS appear as solutions to avoid high spatial and temporal temperature variations among NoC components, and thereby mitigate local network hotspots. Defines new complex, sustainable network-on-chip architectures to reduce network latency and energy Develops topology-agnostic dynamic thermal management and dynamic voltage and frequency scaling techniques Describes joint strategies for network- and core-level sustainability Discusses novel algorithms that exploit the advantages inherent in Wireless Network-on-Chip architectures
Sustainable Wireless Network-on-Chip Architectures focuses on developing novel Dynamic Thermal Management (DTM) and Dynamic Voltage and Frequency Scaling (DVFS) algorithms that exploit the advantages inherent in WiNoC architectures. The methodologies proposed—combined with extensive experimental validation—collectively represent efforts to create a sustainable NoC architecture for future many-core chips. Current research trends show a necessary paradigm shift towards green and sustainable computing. As implementing massively parallel energy-efficient CPUs and reducing resource consumption become standard, and their speed and power continuously increase, energy issues become a significant concern. The need for promoting research in sustainable computing is imperative. As hundreds of cores are integrated in a single chip, designing effective packages for dissipating maximum heat is infeasible. Moreover, technology scaling is pushing the limits of affordable cooling, thereby requiring suitable design techniques to reduce peak temperatures. Addressing thermal concerns at different design stages is critical to the success of future generation systems. DTM and DVFS appear as solutions to avoid high spatial and temporal temperature variations among NoC components, and thereby mitigate local network hotspots. Defines new complex, sustainable network-on-chip architectures to reduce network latency and energy Develops topology-agnostic dynamic thermal management and dynamic voltage and frequency scaling techniques Describes joint strategies for network- and core-level sustainability Discusses novel algorithms that exploit the advantages inherent in Wireless Network-on-Chip architectures
After the destructive decades following the fall of the Safavid Empire, the Qajar dynasty inherited a weakened state and the growing threat of European imperial powers, culminating in two wars with Russia. In this book, Maziar Behrooz provides a history of the Qajar dynasty's navigation of this difficult period, beginning with the reign of Aqa Muhammad Shah and ending with that of Fath Ali Shah. Examining the key decisions taken by Qajar, Russian, British and other actors, the book argues that a reevaluation of the early-Qajar period is required, one which acknowledges the failures of its rulers, while recognising the external constraints they were under, and their successes in reuniting a formerly fragmented state in the face of overwhelming technological, economic and military firepower.
The Islamic Republic of Iran came into being in 1979, the result of a radical revolution that overhauled not only the foundations of Iranian society, religion and politics, but also our understanding of the role of religion in modern government. Here Behrooz Ghamari-Tabrizi takes us on an enlightening journey, showing that contrary to widespread assumptions the Iranian revolution opened up the public sphere to competing interpretations of Islam, with profound consequences for the nature of democratic reform. Ghamari-Tabrizi sheds new light on the contingencies within which the new regime evolved, and traces the steps by which the clerical establishment sought to consolidate power during the immediate postrevolutionary period. Contrary to the received view, he argues that the ruling class failed to institute a theocratic regime, and, more significantly, unintentionally established the grounds for civic challenges to government policies underwritten by official interpretations of Islam. Far from being the exclusive preserve of high-ranking seminarians, interpretations of doctrinal Islam in contemporary Iran now form a contested, varied and negotiated discourse in which lay theologians, intellectuals, lawyers and social activists are active and influential interlocutors. Against the background of this unexpected development, Ghamari-Tabrizi addresses the early and late works of Abdolkarim Soroush, an Iranian philosopher who has become one of the most influential Muslim intellectuals in recent years, a leading force behind Iran's pro-democracy movement and vocal critic of the state. Through a close reading of Soroush's evolving ideas, and of the works of Ali Shari`ati, and by tracing the links between Muslim intellectual critique and the realpolitik of postrevolutionary power struggles, Ghamari-Tabrizi offers nothing less than a pathbreaking reassessment of the Iranian revolution. In so doing, he demonstrates how democratic transformation in Muslim societies has taken place by means of a public engagement with the teachings of Islam and highlights a most significant, if unintended, consequences of the Iranian revolution - namely the secularization of Islam. Drawing on a wealth of sources and with powerful insights, 'Islam and Dissent' is essential for an understanding of the Muslim world today and of the new relationships between religion, culture and political power visible across the globe.
Were the thirteen essays Michel Foucault wrote in 1978–1979 endorsing the Iranian Revolution an aberration of his earlier work or an inevitable pitfall of his stance on Enlightenment rationality, as critics have long alleged? Behrooz Ghamari-Tabrizi argues that the critics are wrong. He declares that Foucault recognized that Iranians were at a threshold and were considering if it were possible to think of dignity, justice, and liberty outside the cognitive maps and principles of the European Enlightenment. Foucault in Iran centers not only on the significance of the great thinker’s writings on the revolution but also on the profound mark the event left on his later lectures on ethics, spirituality, and fearless speech. Contemporary events since 9/11, the War on Terror, and the Arab Uprisings have made Foucault’s essays on the Iranian Revolution more relevant than ever. Ghamari-Tabrizi illustrates how Foucault saw in the revolution an instance of his antiteleological philosophy: here was an event that did not fit into the normative progressive discourses of history. What attracted him to the Iranian Revolution was precisely its ambiguity. Theoretically sophisticated and empirically rich, this interdisciplinary work will spark a lively debate in its insistence that what informed Foucault’s writing was not an effort to understand Islamism but, rather, his conviction that Enlightenment rationality has not closed the gate of unknown possibilities for human societies.
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