Position-Dependent Performance in 5 nm Vertically Stacked Lateral Si Nanowires Transistors

In this work, we investigated the performance of vertically stacked lateral nanowires transistors (NWTs) considering the effects of series resistance. Also, we consider the vertical positions of the lateral nanowires in the stack and diameter variation of the lateral NWTs as new sources of process variability

Variability-Aware Simulations of 5 nm Vertically Stacked Lateral Si Nanowires Transistors

In this work, we present a simulation study of vertically stacked lateral nanowires transistors (NWTs) considering various sources of statistical variability. Our simulation approach is based on various simulations techniques to capture the complexity in such ultra-scaled device

Simulation study of vertically stacked lateral Si nanowires transistors for 5 nm CMOS applications

In this paper we present a simulation study of vertically stacked lateral nanowires transistors (NWTs), which may have applications at 5nm CMOS technology. Our simulation approach is based on a collection of simulation techniques to capture the complexity in such ultra-scaled devices. Initially, we used drift-diffusion methodology with activated Poisson-Schrodinger quantum corrections to accurately capture the quantum confinement in the cross-section of the device. Ensemble Monte Carlo simulations are used to accurately evaluate the drive current capturing the complexity of the carrier transport in the NWTs. We compared the current flow in single, double, and triple vertically stacked lateral NWTs with and without contact resistance. The results presented here suggest a consistent link between channel strain and device performance. Furthermore, we propose a device structure for the 5nm CMOS technology node that meets the required industry scaling projection. We also consider the interplay between various sources of statistical variability and reliability in this work

Integrated atomistic process and device simulation of decananometre MOSFETs

In this paper we present a methodology for the integrated atomistic process and device simulation of decananometre MOSFETs. The atomistic process simulations were carried out using the kinetic Monte Carlo process simulator DADOS, which is now integrated into the Synopsys 3D process and device simulation suite Taurus. The device simulations were performed using the Glasgow 3D statistical atomistic simulator, which incorporates density gradient quantum corrections. The overall methodology is illustrated in the atomistic process and device simulation of a well behaved 35 nm physical gate length MOSFET reported by Toshiba

Trade and market in conflict development and conflict resolution in Nigeria: scoping study report to the UK department for International Development.

This study of trade related conflict and its resolution in Nigeria’s was prompted by the needs of policy makers concerned with improving market access for the poor. There is a lack of published material analysing links between trade/markets and conflict development/conflict resolution. The study is based on a literature review, a small number of interviews in Nigeria and UK and a one-day workshop:it was conceived as a pilot to identify areas for future research. The informality of Nigeria’s agricultural produce trade has the potential to promote both cooperation and conflict. The food marketing chains are complex networks extending across the country, and often involve diverse ethnic, religious and social groups. For the most part these linkages work extremely effectively, drawing on substantial inter-gender, inter-ethnic and inter-religious cooperation,often built up over generations.Nonetheless, there is potential for

Respiratory effects of propofol-ketamine and propofl-fentanyl combinations for total intravenous anaesthesia

propofol combined with other intravenous analgesic agents has been used as the sole anaesthetic agent to provide hypnosis and analgesia for various minor and major surgeries. However, because it lacks analgesic property, propofol in large doses causes respiratory depression. Combination of propofol with other analgesic agents reduces the dose of propofol necessary for procedural sedation. Objectives: This study evaluated the respiratory effects of two drug combinations: propofol-ketamine and propofol-fentanyl used as the sole anaesthetic agents. Method: one hundred and eight adults aged 18 to 50 years of either gender with ASA physical status I & II, randomly grouped into K and F, comprising of 54 patients each. Group K received propofol-ketamine while group F received propofol-fentanyl for induction and maintenance of anaesthesia. Respiratory Rate (RR) and Oxygen saturation (SpO were recorded before and one 2) minutes after induction of anaesthesia and thereafter every five minutes till the end of procedure and at recovery till the patient is fully recovered. Results: Demographic and clinical characteristics such as age, sex, weight, duration of surgery, types of surgical procedures and volumes of drugs used were comparable between the two groups. Fall in respiratory rate was greater in propofol-fentanyl group compared to propofol-ketamine group during maintenance and early postoperative period (p<0.05). Conclusion: Both propofol-ketamine and propofolfentanyl combinations produced safe and effective anaesthesia. Propofol-ketamine results in a more stable respiratory profile

2D-TCAD Simulation on Retention Time of Z2FET for DRAM Application

Traditional memory devices are facing more challenges due to continuous down-scaling. 6T-SRAM suffers from variability [1-2] and reliability [3-4] issues, which introduce cell stability problems. DRAM cells with one transistor, one capacitor (1T1C) struggle to maintain refresh time [5-6]. Efforts have been made to find new memory solutions, such as one transistor (1T) solutions [7-9]. Floating body based memory structures are among the potential candidates, but impact ionization or band-to-band tunnelling (B2BT) limits their refresh time [10]. A recently proposed zero impact ionization and zero subthreshold swing device named Z2FET [9, 11-12] has been demonstrated and is a promising candidate for 1T DRAM memory cell due to technology advantages such as CMOS technology compatibility, novel capacitor-less structure and sharp switching characteristics. In the Z2FET memory operation, refresh frequency is determined by data retention time. Previous research [11-12] is lacking systematic simulation analysis and understanding on the underlying mechanisms. In this paper, we propose a new simulation methodology to accurately extract retention time in Z2FET devices and understand its dependency on applied biases, temperatures and relevant physical mechanisms. Since the stored ‘1’ state in Z2FET is an equilibrium state [9, 11-12] and there is no need to refresh, we will concentrate on state ‘0’ retention. Two types of ‘0’ retention time: HOLD ‘0’ and READ ‘0’ retention time will be discussed separately

Effects of Azadirachta indica Leaf Powder on some Biochemical Parameters of the African Catfish (Clarias gariepinus)

The study investigated the alterations in biochemical parameters of African catfish (Clarias gariepinus) exposed to neem (Azadirachta indica) leaf powder during the short term experimental period in static renewable bioassay system. The fish with mean length and weight of 18.35 ± 0.60cm and 22.38 ± 1.25g respectively were exposed to 0.192, 0.096, 0.048 and 0.00mg/L concentrations of neem leaf powder for 14-day period. During the experimental period, some physicochemical parameters such as temperature, pH, dissolved oxygen and total alkalinity were monitored weekly. At the end of the experimental period, the fish were sacrificed for the test of biochemical parameters that include: total protein, glucose, triglycerides, cholesterol, uric acid and creatinine in the serum, liver and kidney of the test fish in order to ascertain the effect of the plant on these biomarkers. As the concentrations of the plant leaf powder increased, the activities of serum total protein, triglycerides, cholesterol, creatinine and glucose either significantly (p<0.05) or insignificantly (p>0.05) decreased. An increase in liver glucose and total protein were recorded while kidney total protein, cholesterol and triglycerides were also either significantly (p<0.05) or insignificantly (p>0.05) increased. However, kidney glucose decreased significantly (p<0.05) while liver cholesterol, creatinine and triglycerides insignificantly decreased. Therefore, it is an indication that the plant leaf powder has effect on the physiological activities of the test fish during the study period.Keywords: Health status, Neem leaf powder, Clarias gariepinus, Toxicity