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The maximum potential of multi-core systems to deliver great performance
and expanded usages is unleashed only when software is designed to take advantage
of the machine's full capabilities. With the entire industry moving towards
the multi-core architecture, it has become imperative for the universities to
introduce parallel programming in main stream education. To enable universities
to successfully introduce real world multi-threading concepts, Intel Corporation
has developed a program to provide tools, industry expertise and training modules
for universities to use in their classrooms.
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This course provides a deep understanding of the principles and engineering
tradeoffs involved in designing modern parallel computers (aka "multiprocessors"
and "multicore"), as well as the programming techniques to effectively utilize
these machines.
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Signal integrity refers to the communication between microprocessors and
other high-speed computer and communications components. As the speed at which
these components "talk" to each other increases, so does the demand for engineers
with these skills.
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Today's fabrication technologies draw upon a wide variety of disciplines,
and a diverse scientific and mathematical base. The Microelectronic Fabrication
Curriculum is designed specifically to address these aspects of "process science"
in an interdisciplinary way.
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"MicroElectronics assembly and packaging technology" or "Packaging" is a
key element to Intel manufacturing and product development. This suite of courses
reflects a two year masters program designed to provide the necessary multi-disciplinary
background.
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The VLSI Curriculum presents the complete coursework that may be considered
when creating a VLSI program. The coursework is sequenced to show the interconnects
between key areas such as analog design, digital design and overall architecture
planning.
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The Networking & Network Processor Curriculum outlines the lessons and labs
to develop an upper division networking course. The course sets up the framework
for building networking skills and expertise and then illustrates this expertise.
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The Embedded Computing Curriculum not only provides in-depth materials to
describe the scientific principles behind embedded systems, but also includes
comprehensive lab projects to help students obtain hands-on experience in programming
embedded systems.
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Wireless computing is becoming the standard for implementing computing and
communication applications. This section presents two options on how wireless
curriculum can be put into practice in existing computer science and electrical
engineering programs.
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*These materials are provided for free educational and informational purposes. The copyright belongs to the author and these materials are not intended for resale. THESE MATERIALS AND INFORMATION HAVE BEEN CREATED BY THIRD PARTIES AND ARE PROVIDED "AS IS" WITH NO WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. INTEL ASSUMES NO RESPONSIBILITY FOR ANY ERRORS CONTAINED IN THESE MATERIALS AND HAS NO LIABILITIES OR OBLIGATIONS FOR ANY DAMAGES ARISING FROM OR IN CONNECTION WITH THE USE OF THESE MATERIALS.
