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However, simulating complex structures in the multi-slice setting is challenging and the algorithms typically used are designed on a case-by-case basis depending on the structure to be simulated.In this paper, an accurate algorithm for GISAXS simulations based on the multi-slice DWBA theory is presented.In this paper, we argue for a comprehensive methodology that spans the different levels of abstraction -- from materials, to devices, to complex digital systems and applications.Our approach integrates compact models of low-level characteristics of the emerging technologies to inform higher-level simulation models to evaluate their responsiveness to application requirements.Service Directory (by First Letter of Last Name) This directory is maintained by Dawn Pewitt, OD, Susie Lim, OD and Catherine H Egusa, OD.

With the decline and eventual end of historical rates of lithographic scaling, we arrive at a crossroad where synergistic and holistic decisions are required to preserve Moore's law technology scaling.

The deeper issue presented by these changes is the threat to DOE’s mission and to the future economic growth of the U. This report identifies four areas and research directions for ASCR and how each can be used to preserve performance scaling of digital computing beyond exascale and after Moore's law ends.

The method of Mc Curdy, Baertschy, and Rescigno, J. B, 37, R137 (2004) is generalized to obtain a straightforward, surprisingly accurate, and scalable numerical representation for calculating the electronic wave functions of molecules.

Numerous emerging technologies aim to extend digital electronics scaling of performance, energy efficiency, and computational power/density,ranging from devices (transistors), memories, 3D integration capabilities, specialized architectures, photonics, and others.

The wide range of technology options creates the need for an integrated strategy to understand the impact of these emerging technologies on future large-scale digital systems for diverse application requirements and optimization metrics.

With the decline and eventual end of historical rates of lithographic scaling, we arrive at a crossroad where synergistic and holistic decisions are required to preserve Moore's law technology scaling.The deeper issue presented by these changes is the threat to DOE’s mission and to the future economic growth of the U. This report identifies four areas and research directions for ASCR and how each can be used to preserve performance scaling of digital computing beyond exascale and after Moore's law ends.The method of Mc Curdy, Baertschy, and Rescigno, J. B, 37, R137 (2004) is generalized to obtain a straightforward, surprisingly accurate, and scalable numerical representation for calculating the electronic wave functions of molecules.Numerous emerging technologies aim to extend digital electronics scaling of performance, energy efficiency, and computational power/density,ranging from devices (transistors), memories, 3D integration capabilities, specialized architectures, photonics, and others.The wide range of technology options creates the need for an integrated strategy to understand the impact of these emerging technologies on future large-scale digital systems for diverse application requirements and optimization metrics.However, the DOE has come to depend on the rapid, predictable, and cheap scaling of computing performance to meet mission needs for scientific theory, large scale experiments, and national security.