The Infona portal uses cookies, i.e. strings of text saved by a browser on the user's device. The portal can access those files and use them to remember the user's data, such as their chosen settings (screen view, interface language, etc.), or their login data. By using the Infona portal the user accepts automatic saving and using this information for portal operation purposes. More information on the subject can be found in the Privacy Policy and Terms of Service. By closing this window the user confirms that they have read the information on cookie usage, and they accept the privacy policy and the way cookies are used by the portal. You can change the cookie settings in your browser.
We propose an original architecture adapted to the 10nm transistor node (pitch 64nm) for FDSOI technology. This structure features self-aligned contacts and a gate capping dielectric layer preventing any short in case of lithographic misalignment of contacts. 2D simulations are carried out to quantify parasitic capacitances. Technological solutions are then proposed to optmimize this key parameter...
Engineering studies consist of two parts: theory lectures and laboratory practices. Effectiveness of laboratories plays an important role in providing necessary design skills. However, evaluation of laboratories can be subjective and inconsistent. Consequently, a criterion is required to evaluate the engineering laboratories. This paper proposes an evaluation criterion for assessing the effectiveness...
We developed the new control gate (CG) material and structure in order to overcome scaling limitation beyond 20nm NAND flash cell. New CG material can achieve excellent gap-fill without void and improvement of the Gate CD Gap (GCG). And also, by using new CG material, CG depletion between floating gate (FG) can be improved. As a result, gate coupling ratio, bit-line (BL) interference and tail-cell...
The NAND flash market is continuously growing by the successive introduction of innovative devices and applications. To meet the market trend, 3-dimenstional (3D) non-volatile memories (NVMs) are expected to replace the planar one, especially for 10 nm-nodes and beyond. Therefore, the fundamentals and current status of the 3D NAND flash memory are reviewed and future directions are discussed.
In this paper, we present a new technique to improve the reliability of H-tree SRAM memories. This technique deals with the SRAM power-bus monitoring by using built-in current sensor (BICS) circuits that detect abnormal current dissipation in the memory power-bus. This abnormal current is the result of a single-event upset (SEU) in the memory and it is generated during the inversion of the state of...
This paper presents an innovative structure based on 3 dimensional integration technology, where ultra thin inter layer dielectric enables a dynamic threshold voltage (VTH) control. A sequential process flow is proposed to fabricate 3D devices with dynamically tunable VTH. This ability can be exploited to design SRAMs cells with increased stability and surface density compared to planar technology...
The power consumption and the matching will be the principal issues at the 32 nm node and below. In this context, Ultra-Thin Body devices are extensively studied for the end-of-roadmap CMOS. In this paper we present the SON technology, leading to the simple fabrication of sustained mono-Si nano-membranes over an empty tunnel, and discuss on the application of this process to build-up electronic devices...
The reliability of advanced embedded non-volatile memories has been discussed using the 2T-FNFN devices example. The write/erase endurance and the data retention are the most important reliability parameters. The intrinsic reliability mechanisms can be addressed through single cell evaluation, while the cell-to-cell variation determines the product level reliability. The cell-to-cell variation can...
Since the very beginning of the flash memory era, the market has been dominated by the floating gate technology. However, as floating gate flash continues along a very steep scaling path, more and more barriers start to appear, limiting further scaling possibilities of the technology. At the same time, other concepts are preparing to take over. This paper concentrates on the prospect of high-k materials...
Novel 3D stacked gate-all-around multichannel CMOS architectures were developed to propose low leakage solutions and new design opportunities for sub-32 nm nodes. Those architectures offer specific advantages compared to other planar or non planar CMOS devices. In particular, ultra-low IOFF (< 20 pA/mum) and high ION (> 2.2 mA/mum) were demonstrated. Moreover, those transistors do not suffer...
3D contactless technology based on capacitive coupling represents a promising solution for high-speed and low power signaling in vertically integrated chips. AC coupled interconnects do not suffer from mechanical stress, and the parasitic load is much reduced when compared to standard DC solutions, such as wire bonding and micro bumps. Communication system based on wireless interconnection scheme...
Set the date range to filter the displayed results. You can set a starting date, ending date or both. You can enter the dates manually or choose them from the calendar.