Towards a Grid-Enabled Simulation Framework for Nano-CMOS Electronics

The electronics design industry is facing major challenges as transistors continue to decrease in size. The next generation of devices will be so small that the position of individual atoms will affect their behaviour. This will cause the transistors on a chip to have highly variable characteristics, which in turn will impact circuit and system design tools. The EPSRC project "Meeting the Design Challenges of Nano-CMOS Electronics" (Nano-CMOS) has been funded to explore this area. In this paper, we describe the distributed data-management and computing framework under development within Nano-CMOS. A key aspect of this framework is the need for robust and reliable security mechanisms that support distributed electronics design groups who wish to collaborate by sharing designs, simulations, workflows, datasets and computation resources. This paper presents the system design, and an early prototype of the project which has been useful in helping us to understand the benefits of such a grid infrastructure. In particular, we also present two typical use cases: user authentication, and execution of large-scale device simulations.

[1]  David W. Walker,et al.  RAVE: the resource‐aware visualization environment , 2009, Concurr. Comput. Pract. Exp..

[2]  Mike Jackson,et al.  Introduction to OGSA-DAI Services , 2004, SAG.

[3]  B. Hornung,et al.  An enhanced 90nm high performance technology with strong performance improvements from stress and mobility increase through simple process changes , 2004, Digest of Technical Papers. 2004 Symposium on VLSI Technology, 2004..

[4]  Victor Chang,et al.  The OMII Software Distribution , 2006 .

[5]  Jason Novotny,et al.  GridSphere: an advanced portal framework , 2004, Proceedings. 30th Euromicro Conference, 2004..

[6]  A. Ogura,et al.  Sub-10-nm planar-bulk-CMOS devices using lateral junction control , 2003, IEEE International Electron Devices Meeting 2003.

[7]  G. Declerck A look into the future of nanoelectronics , 2005, Digest of Technical Papers. 2005 Symposium on VLSI Technology, 2005..

[8]  Mark Zwolinski,et al.  Meeting the design challenges of nanoCMOS electronics , 2007 .

[9]  Geoffrey C. Fox,et al.  Web Service Grids: an evolutionary approach , 2005, Concurr. Pract. Exp..

[10]  David W. Walker,et al.  RAVE: the resource-aware visualization environment , 2009 .

[11]  Richard O. Sinnott,et al.  Grid infrastructures for the electronics domain: requirements and early prototypes from an EPSRC pilot project , 2007 .

[12]  Richard O. Sinnott,et al.  Supporting Decentralized, Security Focused Dynamic Virtual Organizations across the Grid , 2006, 2006 Second IEEE International Conference on e-Science and Grid Computing (e-Science'06).

[13]  Richard O. Sinnott,et al.  DyVOSE project: experiences in applying privilege management infrastructures , 2006 .