Data management of nanometre­ scale CMOS device simulations

In this paper we discuss the problems arising in managing and curating the data generated by simulations of nanometre scale CMOS (Complementary Metal–Oxide Semiconductor) transistors, circuits and systems and describe the software and operational techniques we have adopted to address them. Such simulations pose a number of challenges including, inter alia, multi­TByte data volumes, complex datasets with complex inter-relations between datasets, multi­-institutional collaborations including multiple specialisms and a mixture of academic and industrial partners, and demanding security requirements driven by commercial imperatives. This work was undertaken as part of the NanoCMOS project. However, the problems, solutions and experience seem likely to be of wider relevance, both within the CMOS design community and more generally in other disciplines

Integrating security solutions to support nanoCMOS electronics research

The UK Engineering and Physical Sciences Research Council (EPSRC) funded Meeting the Design Challenges of nanoCMOS Electronics (nanoCMOS) is developing a research infrastructure for collaborative electronics research across multiple institutions in the UK with especially strong industrial and commercial involvement. Unlike other domains, the electronics industry is driven by the necessity of protecting the intellectual property of the data, designs and software associated with next generation electronics devices and therefore requires fine-grained security. Similarly, the project also demands seamless access to large scale high performance compute resources for atomic scale device simulations and the capability to manage the hundreds of thousands of files and the metadata associated with these simulations. Within this context, the project has explored a wide range of authentication and authorization infrastructures facilitating compute resource access and providing fine-grained security over numerous distributed file stores and files. We conclude that no single security solution meets the needs of the project. This paper describes the experiences of applying X.509-based certificates and public key infrastructures, VOMS, PERMIS, Kerberos and the Internet2 Shibboleth technologies for nanoCMOS security. We outline how we are integrating these solutions to provide a complete end-end security framework meeting the demands of the nanoCMOS electronics domain

Slow-light optical bullets in arrays of nonlinear Bragg-grating waveguides

We demonstrate how to control independently both spatial and temporal dynamics of slow light. We reveal that specially designed nonlinear waveguide arrays with phase-shifted Bragg gratings demonstrate the frequency-independent spatial diffraction near the edge of the photonic bandgap, where the group velocity of light can be strongly reduced. We show in numerical simulations that such structures allow a great flexibility in designing and controlling dispersion characteristics, and open a way for efficient spatiotemporal self-trapping and the formation of slow-light optical bullets.Comment: 4 pages, 4 figures; available from http://link.aps.org/abstract/PRL/v97/e23390

Surgery for the Wolff-Parkinson-White syndrome - the Groote Schuur Hospital experience

Surgical division of accessory atrioventricular (AV) connections has been performetl on 9 patients with the WolffParkinson- White (WPW) syndrome at Groote Schuur Hospital. All patients had symptomatic paroxysmal tachycardia. The indication for surgery in 5 patients was poor control on antiarrhythmic drugs. Surgery was performed on a 15-year-old boy to prevent lifelong dependence on drugs, although his atrial fibrillation (ventricular rate> 300/min) was controllable with sotalol 1 280 mg daily. The remaining 3 patients required cilrdiac surgery for other indications and therefore their accessory pathways (APs) were divided concurrently. The AP was localised by pre-operative endocardial mapping and intra-operative epicardial mapping. There were 4 posteroseptal, 3 left free-wall and 2 right free-wall pathways. An endocardial approach was used to divide the pathways. All 5 free-wall APs were successfully divided without complications or recurrence. However, 1 patient with paroxysmal atrial fibrillation and severe unstable angina·due to coronary artery disease died unexpectedly 10 days after 4-vessel coronary bypass grafting and division of a posteroseptal AP. Postoperative complications occurred in a further 2 patients with posteroseptal APs. One patient developed complete heart block and is now asymptomatic with a DDD pacemaker, while the other had recurrence of retrograde bypass conduction postoperatively, but is now successfully controlled on sotalol. Therefore 7 of the 8 survivors are free of recurrence of tachycardia on no anti-arrhythmic drugs after a mean follow-up of 14,3 months. New insights into the surgical technique, particularly for division of posteroseptal pathways, can be expected to improve the outlook