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A novel memory cell for phase-change memories (PCMs) that enables low-power operation has been developed. Power (i.e., current and voltage) for the cell is significantly reduced by inserting a very thin Ta2O5 film between GeSbTe (GST) and a W plug. The Ta2O5 interfacial layer works not only as a heat insulator enabling effective heat generation in GST but also as an adhesion layer between GST and...
Spacer-defined fin-patterning results in double/quadruple fin density and hence is attractive for high performance 32-nm CMOS applications. For the first time 55-nm gate-length FinFET SRAMs with resist- and spacer-defined fins are electrically compared. Due to short-range process variations, SRAM bit-cells with spacer-defined fins show approximately 2.5 times higher variability in static-noise-margin...
Starting with the 45 nm node, a tradeoff between performance and density exists that become more severe at the 32 nm node. An in-depth analysis of the impact of pitch and increased parasitics on device performance in the 32 nm node is presented. To counteract these effects, reduction of parasitics, gate length scaling, and aggressive stress engineering are necessary. Optimized layout using a "relaxed-pitch"...
We present the state-of-the-art 45nm high performance bulk logic platform technology which utilizes, for the first time in the industry, ultra high NA (1.07) immersion lithography to realize highly down-scaled chip size. Fully renovated MOSFET integration scheme which features reversed extension and SD diffusion formation is established to meet Vt roll-off requirement with excellent transistor performance...
It is reported for the first time that the anomalous gate edge leakage current in NMOSFETs is caused by the lateral growth of Ni silicide toward the channel region, and this lateral growth is successfully suppressed by the control of the Ni silicidation region using the Si ion implantation (Si I.I.) technique. As a result, the anomalous gate edge leakage current is successfully reduced, and the standby...
This paper introduces the capacitive bulk acoustic wave (BAW) silicon disk gyroscope. The capacitive BAW disk gyroscopes operate in the frequency range of 2-8MHz, are stationary devices with vibration amplitudes less than 20nm, and achieve very high quality factors (Q) in low vacuum (and even in atmosphere), which simplifies their wafer-scale packaging. The device has lower operating voltages compared...
Wafer scale nanostencil lithography is used to define 200 nm scale mechanically resonating silicon cantilevers monolithically integrated into CMOS circuits. We demonstrate the simultaneous patterning of ~2000 nano-devices by post-processing standard CMOS wafers using one single metal evaporation, pattern transfer to silicon and subsequent etch of the sacrificial layer. Resonance frequencies around...
We report band-edge pFET threshold voltage (Vt ~ 0.28 V) for MoOxNy on HfSiON gate dielectric using a standard high temperature gate first metal-inserted poly-stack (MIPS) process flow. We also report p-FETs Vt of 0.45 V using a MoO x/SiON gate stack, meeting the requirement for 45nm high-V t CMOS technology. 30 % improvement in performance compared to our base-line poly-Si/SiON was observed by using...
We have successfully developed the advanced FinFET fabrication processes for materializing FinFET CMOS circuits. Using the developed technologies, we demonstrate the advanced TiN metal gate, fin-height controlled FinFET CMOS inverter with an excellent transfer performance, and the flexible threshold voltage, asymmetric gate insulator thickness four-terminal (4T) FinFET with a greatly improved subthreshold...
Three-dimensional integration (3DI) is a very promising fabrication methodology for extending the CMOS technology roadmap. As such, it is critical to evaluate the capability of this technique to provide reliable interconnection between stacked circuit layers. Since one of potential approaches for 3DI is through use of Cu bonded interconnects, the viability of this process is evaluated in this paper...
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