Multi-Scale Quantum Simulations of Conductive Bridging RAM

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Abstract

IWCE 2015 presentation.  Abstract and more information to be added at a later date.

Credits

In collaboration with Z. Jiang, N. Onofrio, D. Guzman, D. Lemus, S. Perez, J. Bermeo, A. Strachan, and G. Klimeck (Purdue University)

This work was supported by the Semiconductor Technology Advanced Research Network (STARnet) Center of Function Accelerated Nanomaterial Engineering (FAME) (Task 2382.004), one of six centers supported by the STARnet phase of the Focus Center Research Program (FCRP). Funding for STARnet is sponsored by DARPA and MARCO. The use of nanoHUB.org computational resources operated by the Network for Computational Nanotechnology funded by the US National Science Foundation under Grant Nos. EEC-0228390, EEC-1227110, EEC-0228390, EEC-0634750, OCI-0438246, OCI-0832623 and OCI-0721680 is gratefully acknowledged.

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IWCE 2015

Cite this work

Researchers should cite this work as follows:

  • Michael Povolotskyi, nicolas onofrio, David M Guzman, Alejandro Strachan, Gerhard Klimeck (2015), "Multi-Scale Quantum Simulations of Conductive Bridging RAM," https://nanohub.org/resources/23027.

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Time

Location

North Ballroom, PMU, Purdue University, West Lafayette, IN

Tags

  1. multiscale modeling and simulation
  2. nanoelectronics
Multi-Scale Quantum Simulations of Conductive Bridging RAM
  • Multi-Scale Quantum Simulations of Conductive Bridging RAM 1. Multi-Scale Quantum Simulation… 0
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  • Outline 2. Outline 33.600266933600267
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  • Technological requirement: storage class memory 3. Technological requirement: sto… 56.122789456122788
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  • Proposed storage class memory: Conductive-Bridging RAM (CBRAM) 4. Proposed storage class memory:… 148.08141474808141
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  • Advantages of CBRAM (experimental results) 5. Advantages of CBRAM (experimen… 233.73373373373374
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  • Why do we need to simulate CBRAM? 6. Why do we need to simulate CBR… 267.30063396730066
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  • Methods: multi-scale simulation 7. Methods: multi-scale simulatio… 371.23790457123789
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  • Tight Binding parameterization of materials 8. Tight Binding parameterization… 415.91591591591595
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  • Multiscale simulation flow 9. Multiscale simulation flow 457.49082415749086
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  • Results: Molecular Dynamics of the filament formation 10. Results: Molecular Dynamics of… 496.16282949616283
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  • Ballistic quantum conductance. Recursive Green's function method 11. Ballistic quantum conductance.… 550.38371705038378
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  • Acceleration of transport calculation: Intel's Xeon Phi usage 12. Acceleration of transport calc… 579.67967967967968
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  • Results: Offload efficiency for recursive Green's function algorithm 13. Results: Offload efficiency fo… 638.77210543877209
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  • Summary 14. Summary 690.02335669002343
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