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Course Criteria
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3.00 Credits
This course describes projection methods for model reduction that seek to replace scale systems (VLSI circuits, weather prediction models, and MEMS) with systems of computational complexity that the original dynamical system requires while still maintaining model fidelity.
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3.00 Credits
Energy efficiency has become critically important for modern computing systems, from batter-powered mobile devices to wall-powered high-performance servers. The course presents the fundamentals of energy characteristics of modern systems, and introduces basic energy-saving mechanisms and mthodologies for system energy characterization. It also covers emerging technologies in energy-efficient design.
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3.00 Credits
Fundamental topics in computer-aided design for VLSI-Logic synthesis and formal verification, timing analysis and optimization, technology mapping, logic and fault simulation, testing, and physical design will be covered. Relevant topics in algorithms and data structures, generic programming, and the C++ standard template library will also be covered.
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3.00 Credits
Design of high performance computer systems, including shared-memory and message-passing multiprocessors and vector systems. Hardware and software techniques to tolerate and reduce memory and communication latency. Case studies and performance simulation of high-performance systems.
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3.00 Credits
The course covers wide range of topics pertaining to security of Hardware Embedded systems, including cryptographic processors, secure memory access, hardware IT protection by monitoring and watermarking FPGA security, physical and side-charmed attacks, Trojan horses.
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4.00 Credits
Graduate level course on the study of protocols and systems for wide-area inter-networks with an emphasis on the challenges presented by the scale and complexity of the Internet. Topics include network architecture, router design, intra- and inter- domain routing, multicast services, congestion control, quality of service, network security, active and overlay network, network management.
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3.00 Credits
This course is intended for seniors and graduate students in Electrical Engineering. It covers practical aspects of high-speed DSP system design, and highlights system design and simulation challenges, and demonstrates common pitfalls and how to prevent them. Students learn how to design, simulate, and apply good high-speed and analog design practices that minimize both component and system noise and ensure system design success.
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3.00 Credits
See MSCI 545.
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3.00 Credits
Continuation of PHYS 563, including scattering of waves by crystals, transport theory, and magnetic phenomena.
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3.00 Credits
A survey of the techniques used in imaging submicron and nanometer structures with an emphasis on applications in chemistry, physics, biology, and materials science. The course includes an introduction to scanning probe microscopy and single photon counting including STM, AFM, NSOM, and confocal microscopy, as well as discussions on the fundamental and practical aspects of image acquisition, analysis, and artifacts.
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