<P>The International Conference on Computer Design encompasses a wide range of topics in the research, design, and implementation of computer systems and their components. ICCD′s multi–disciplinary emphasis provides an ideal environment for developers and researchers to discuss practical and theoretical work covering system and computer architecture, verification and test, design and technology, and tools and methodologies</P> <P>The International Conference of Computer Design (ICCD) was founded along with the International Conference on Computer–Aided Design (ICCAD) in 1982 to address critical needs in the design of large–scale integrated systems. ICCAD was founded to focus on the algorithmic core of CAD, whereas ICCD was oriented to design and CAD applications.</P> <P>ICCD is the premiere conference covering the research, design, and implementation of computer systems and their components.</P> <P><B>Keywords:</B> </P> <H3>Computer Systems: Methods, Implementations and Applications</H3> <UL style=″PADDING–RIGHT: 20px; PADDING–LEFT: 20px; PADDING–BOTTOM: 2px; MARGIN: 2px 20px; PADDING–TOP: 2px″> <LI>Advanced Computer Architecture for General and Application–Specific Enhancement <LI>Modeling and Performance Analysis <LI>Support for Operating Systems and Languages <LI>Memory Hierarchy <LI>System Design Methods for Uni–and Parallel–Processors </LI></UL> <H3>Processor Architecture</H3> <UL style=″PADDING–RIGHT: 20px; PADDING–LEFT: 20px; PADDING–BOTTOM: 2px; MARGIN: 2px 20px; PADDING–TOP: 2px″> <LI>Micro Architecture Design Techniques <LI>Pipelining, Caching, Branch Prediction, and Multithreading, Computer Arithmetic <LI>Techniques for Low–power; Secure, and Reliable Processor Designs <LI>Embedded Network, System–on–chip, and Application Specific Processor Design <LI>Real–life Design Challenges: Case Studies, Tradeoffs and Post–mortems </LI></UL> <H3>Logic and Circuit Design </H3> <UL style=″PADDING–RIGHT: 20px; PADDING–LEFT: 20px; PADDING–BOTTOM: 2px; MARGIN: 2px 20px; PADDING–TOP: 2px″> <LI>Circuits and Design Techniques for Digital, Memory, and Mixed–signal Systems <LI>Circuits and Design Techniques for High Performance and Low Power <LI>Circuits and Design Techniques for Robustness Under Process Variability and Radiation <LI>Design Techniques for Emerging Process Technologies <LI>Asynchronous Circuits <LI>Signal Processing and Arithmetic Circuits </LI></UL> <H3>Electronic Design Automation </H3> <UL style=″PADDING–RIGHT: 20px; PADDING–LEFT: 20px; PADDING–BOTTOM: 2px; MARGIN: 2px 20px; PADDING–TOP: 2px″> <LI>High–level, Logic and Physical Synthesis <LI>Physical Planning, Design and Early Estimation for Large Circuits <LI>Automatic Analysis and Optimization of Timing, Power and Noise <LI>Tools for Multiple–clock Domains, Asynchronous and Mixed–timing Methodologies <LI>CAD Support for FPGAs, ASSPs, Structured ASICs, Platform–based Design and Networks– on–chip Hardware Description Languages <LI>Tools, Methodologies and Design Strategies for Emerging Technologies (MEMs, Spintronics, Nano, Quantum) </LI></UL> <H3>Verification and Test </H3> <UL style=″PADDING–RIGHT: 20px; PADDING–LEFT: 20px; PADDING–BOTTOM: 2px; MARGIN: 2px 20px; PADDING–TOP: 2px″> <LI>Simulation Based and Formal Techniques for Functional Design Verification <LI>Equivalency Checking, Property Checking, Theorem Proving <LI>High–level Design Validation <LI>Design Error Debug and Diagnosis <LI>Hardware/Software Validation <LI>Fault Modeling <LI>Fault Simulation and ATPG <LI>DFT and BIST <LI>SoC Testing </LI></UL>
Abbrevation
ICCD
City
Lake Tahoe
Country
United States
Deadline Paper
Start Date
End Date
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