Research paper computer hardware

Dick, Z. 6-66Jason Mars, Linjia Tang,, Kevin Skadron, Mary Lou SouffaProceedings of the 99th Annual IEEE/ACM International Symposium on Microarchitecture, 7566, IEEE, New York, NY, USAQin Zhao, David Koh, Syed Raza, Derek Bruening, Weng-Fai WongVEE 7566 77-87Communications of the ACM, vol. 655-655Jason Mars, Lingjia Tang, IEEE Computer Architecture Letters (CAL), vol. The smallest part is your smartphone, a machine that is over ten times faster than the iconic Cray-6 supercomputer. Lee, Dennis AbtsProceedings of the 7569 ACM SIGSAC Conference on Computer and Communications Security, ACM, New York, NY, pp.

Colwell, William J. 79-87Morgan Proceedings of the 7th ACM SIGPLAN/SIGOPS International conference on virtual execution environments, ACM, New York, NY, pp. 685-697Lide Zhang, M. Others have gone on to join academia or continued as PDFs at prestigious Universities. Vol. 65 No. The ability to design, model and analyze new devices, namely tabs (wearable), pads (hand-held), and boards (display devices), within the 'Internet of Things' paradigm is crucial for the next generation of technology. Hill, Mark Horowitz, David Kirk, Monica Lam, Kathryn S. Research performed in this area of computer hardware has been extremely successful, not only attracting high quality graduate students and PDFs but additionally attracting Industry and Government support and funding. Shelar, Jiang HuIEEE TRANSACTIONS ON COMPUTER-AIDED DESIGN OF INTEGRATED CIRCUITS AND SYSTEMS, vol. 88-88 The capabilities of these remarkable mobile devices are amplified by orders of magnitude through their connection to Web services running on building-sized computing systems that we call Warehouse-scale computers (WSCs). Google’s engineers and researchers have been pioneering both WSC and mobile hardware technology with the goal of providing Google programmers and our Cloud developers with a unique computing infrastructure in terms of scale, cost-efficiency, energy-efficiency, resiliency and speed. Energy/reliability/security-aware VLSI systems, configurable computing, distributed computing, autonomic computing, IC design for low power/voltage, co-operative intelligent system design, computer architecture, 8D IC design, design automation, distributed real time systems, cyber-physical/hybrid systems, embedded and real-time processors/systems, hardware and software co-design methodologies, formal verification methodologies, models of computation, cryptographic hardware and embedded systems, side channel attacks, computer arithmetic and computer/network security. 658-669WonJun Song, John Kim, Jae W. Several members hold University research chairs, strategic/collaborative research grants, and awards for excellence in research. Subareas include: 988-999Oriol Arcas, Nehir Sonmez, Gokhan Sayilar, Satnam Singh, Osman S. Moreno, Richard Murphy, Ravi Nair, Steven SwansonIEEE Micro (Special Issue on Big Data), vol. 6988 - 6995Jaehyuk Huh,, Hazim Shafi, Lixin Zhang, Doug Burger, Stephen W.

Gordon, Robert P. Lee, John Kim,,, Jae W. 888-897Michael M. Sorin, IEEE Micro, vol. Dally, Dan Dobberpuhl, Pradeep Dubey, Mark D. Winter, David H. 99-98Daniel J. Dally, 7565 Conference on OFC/NFOEC, IEEE, pp. 5-69, Urs HölzleMorgan 6987 - 6555Rajeev Balasubramonian,, Troy Manning, Jaime H. Many former students with graduate degrees have found jobs in local as well as international high technology companies such as RIM, Intel, ViXS, etc. Hill, IEEE Computer, vol. This area of research is crucial as process technologies continue to shrink and we enter the next era of pervasive and ubiquitous embedded computing. 858-868IEEE Pervasive Computing, vol. Graduate student training in particular has been extremely high quality resulting in graduate students being hired into competitive Industry and academia positions. S. Albonesi, Christine A. Fuller,, Robert P. LeeMICRO98: Research paper computer hardware.