Thunderstorm, a four-act play by Tsao Yu, one of China's leading playwrights, has held the stage since it was produced in 1933. Its wide human appeal has drawn audiences from every walk of life all over China and it has even been made into a folk-opera.Here, for the first time, is an adequate English translation.The setting is the home of an industrialist in north China, where a family has come together with the inexorable fatality of a Greek drama. It is a play of tensions, and, in the twenty-four hours in which the action takes place, we watch these tensions mount and tauten as the tragic climax swiftly approached.Here, in miniature, we witness the disintegration of the fabric of the old society and the birth-pangs of the new. The head of the house, a self-made man whose preoccupation with success has made him in sensible to the ties of blood and affection, still bears within him the stifling weight of the old feudal society. The younger generation are in rebellion against the decaying order which the older generation stand for, and the intensity of their reaction reveals new facets in the dramatic situation.The play is an accomplished example of the Western form of drama in China. The emotional conflicts and stresses which Tsao Yu handles with such finesse are skillfully interwoven and counterpoised in such a way that suspense is sustained to the final curtain.We are confident that English speaking readers will accord this play the welcome that one of the classics of twentieth-century drama deserves.
All That I Love / DrawingPoems collects 29 pairs of drawings and poems by Yu Cao. This book has entered the collection of Center for Arts and Language at Rhode Island School of Design. Picasso said "to draw, close your eyes and sing." Heidegger said "poetry is the origin of language." An integrated art form of drawing and poem is my mother tongue through which I experience a new reality connecting me with something larger than me and my life. In impromptu drawings, a world opens up from an intrinsic energy that has touched me - as fresh and exciting as birth, as true and ancient as the sun. Daily encounters with people, animals, watermelons, clouds, flowers, love, life and death are my inspirations. In their presences, I am open and sincere - ready for moments of spirit to come through until the unknown reaches precision. We all experience these moments of ineffable beauty when we are present with what is and connect with other beings. I invite you to dwell in the unknown energy that has touched me deeply and quietly and transported me to the openness of the mind.
The advent of quantum chromodynamics (QCD) in the early 1970s was one of the most important events in twentieth-century science. This book examines the conceptual steps that were crucial to the rise of QCD, placing them in historical context against the background of debates that were ongoing between the bootstrap approach and composite modeling, and between mathematical and realistic conceptions of quarks. It explains the origins of QCD in current algebra and its development through high-energy experiments, model-building, mathematical analysis and conceptual synthesis. Addressing a range of complex physical, philosophical and historiographical issues in detail, this book will interest graduate students and researchers in physics and in the history and philosophy of science.
Predictive Technology Model for Robust Nanoelectronic Design explains many of the technical mysteries behind the Predictive Technology Model (PTM) that has been adopted worldwide in explorative design research. Through physical derivation and technology extrapolation, PTM is the de-factor device model used in electronic design. This work explains the systematic model development and provides a guide to robust design practice in the presence of variability and reliability issues. Having interacted with multiple leading semiconductor companies and university research teams, the author brings a state-of-the-art perspective on technology scaling to this work and shares insights gained in the practices of device modeling.
The aggressive scaling of CMOS technology has inevitably led to vastly increased power dissipation, process variability and reliability degradation, posing tremendous challenges to robust circuit design. To continue the success of integrated circuits, advanced design research must start in parallel with or even ahead of technology development. This new paradigm requires the Predictive Technology Model (PTM) for future technology generations, including nanoscale CMOS and post-silicon devices. This paper presents a comprehensive set of predictive modeling developments. Starting from the PTM of traditional CMOS devices, it extends to CMOS alternatives at the end of the silicon roadmap, such as strained Si, high-k/metal gate, and FinFET devices. The impact of process variation and the aging effect is further captured by modeling the device parameters under the influence. Beyond the silicon roadmap, the PTM outreaches to revolutionary devices, especially carbon-based transistor and interconnect, in order to support explorative design research. Overall, these predictive device models enable early stage design exploration with increasing technology diversity, helping shed light on the opportunities and challenges in the nanoelectronics era.
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