Abstract: A graded SiGe sacrificial layer is epitaxially grown overlying a silicon substrate. A single crystal silicon layer is then grown by an epitaxial process overlying the graded SiGe layer. A SiGe layer is next grown by an epitaxial process as a single crystal layer overlying the silicon layer. A subsequent silicon layer, which becomes the active silicon layer for the transistors, is epitaxially grown overlying the second silicon germanium layer. Together the epitaxially grown Si, SiGe and Si layers form a laminate semiconductor structure. A MOS transistor is then formed on the active area of the single crystal silicon. The graded SiGe sacrificial layer is removed by an etch process to electrically isolate the laminate semiconductor structure from the substrate.

Abstract: In an embodiment, a multi-carrier signal (e.g., an OFDM signal) is received over a channel. First indicators of interference and channel response at a carrier frequency of the signal are determined and compared. If the first indicator of the interference has a relationship to the first indicator of the channel response, then a data value transmitted at the carrier frequency is recovered from a data value received at the carrier frequency according to a first algorithm. If, however, the first indicator of the interference does not have a first relationship to the first indicator of the channel response, then second indicators of interference and the channel response at the carrier frequency are determined and compared. If the second indicator of the interference has a second relationship to the second indicator of the channel response, then the data value transmitted at the carrier frequency is recovered from the data value received at the carrier frequency according to a second algorithm.

Abstract: An image processor includes a readout arranged to read out an M-bit image data word from an image sensor pixel array and an adder arranged to add a noise contribution to the image data word to obtain a dithered M-bit word. A dither processor is arranged to derive correction data having a word size of M+1 bits from a combination of a plurality of M-bit reference words. The noise contribution are derived from said correction data, wherein different correction data are derived for different groups of pixels, each different group of pixels is associated with a specific pixel value DC shift.

Abstract: An electrically erasable and programmable non-volatile memory device includes memory cells arranged in rows and columns, and each column of memory cells is associated with a respective local bit line. The local bit lines are divided into packets of local bit lines, each packet of local bit lines associated with a respective main bit line. Each local bit line is selectively couplable to the respective main bit line by a corresponding selector. Each local bit line is selectively couplable to a reference terminal, for receiving a reference voltage, by a corresponding discharge selector. Each discharge selector is active when the memory device is in a standby state. The non-volatile memory device further includes biasing circuitry to bias each main bit line to a pre-charge voltage during operation, and reading circuitry to select and access a group of memory cells during reading operations.

Abstract: A transponder comprising a resonant circuit, comprising an antenna and a capacitor, and at least one memory connected to the resonant circuit via an intermediate circuit, characterized in that the intermediate circuit comprises at least one contact zone for receiving a portion of human body, so that the positioning of a portion of human body on a contact zone modifies the intermediate circuit, capable of switching from a first state in which it does not allow the memory to be read and/or written to a second state in which it allows the memory to be read and/or written when the resonant circuit of the transponder is contactlessly powered by a reader.

Abstract: A package includes a substrate with an attached emitting IC chip and receiving IC chip. The emitting IC chip includes an optical emitter, and the receiving IC chip includes a main optical sensor and a secondary optical sensor. A case is provided with a bottom portion and a peripheral wall portion to cover the IC chips, wherein the edge of the peripheral wall portion is mounted to the substrate. The bottom portion of the case includes a main opening above the main optical sensor and a secondary opening above the optical emitter. An opaque material is interposed between the case and the receiving IC chip to isolate the main optical sensor from the secondary optical sensor and delimiting a chamber containing the secondary optical sensor and the optical emitter. The chamber is optically isolated from the main optical sensor and main opening, and may be filled with a transparent material.

Abstract: A method for electrically programming a non-volatile memory in which a programming cycle includes prior addressing of memory cells from an initial address corresponding to a first row and a column of a memory plane. The method may include addressing the memory cells in a second consecutive row when the end of the first row is reached to store data on bits with consecutive and increasing addresses in two consecutive rows.

Abstract: A method of extraction of a key from a physical unclonable function using the states of cells of a volatile memory after a powering on, wherein: cells are read according to addresses stored in a non-volatile memory; an error-correction code corrects the read states; and, in case an error has been corrected, the address of the cell providing an erroneous state is replaced in the non-volatile memory with that of another cell providing the non-erroneous state.

Abstract: An image processing system includes an image reconstruction unit. The image reconstruction unit is configured to receive an image at a first resolution, apply the image to a look-up table and output a version of the image at a second resolution. The second resolution includes a higher resolution than the first resolution. In addition, the look-up table is generated inputting a plurality of training images; classifying, into a number of classes, a plurality of images patches corresponding to each of the plurality of training images; re-classifying the number of classes into a final class; and synthesizing filters corresponding to each of the class into a final filter value.

Abstract: A photolithographic process, wherein a photosensitive layer is formed on a surface of a body to be defined; the photosensitive layer is exposed through a photolithographic mask having zones with lower transparency and zones with higher transparency so as to obtain exposed portions and shielded portions of the photosensitive layer; selective portions of the photosensitive layer chosen between the exposed portions and the shielded portions of the photosensitive layer are removed; and portions of the body under the selective portions of the photosensitive layer are selectively removed. The composite layer includes photoresist and carbon nanotubes, which are embedded in the photoresist and extend in a direction generally transverse to, and in electrical contact with, the body.

Abstract: A charge transfer device formed in a semiconductor substrate and including an array of electrodes forming rows and columns, wherein: the electrodes extend, in rows, in successive grooves with insulated walls, disposed in the substrate thickness and parallel to the charge transfer direction.

Abstract: A microelectromechanical gyroscope includes a body and a driving mass, which is movable with respect to the body according to a driving axis and is capacitively coupled to the body. The gyroscope moreover includes a driving device, which forms a microelectromechanical control loop with the body and the driving mass and is configured for supplying to the driving mass driving signals having a common-mode component and respective differential components so as to maintaining the driving mass in oscillation according to the driving axis. The driving device is provided with an actuation stage configured for inverting in a controlled way the sign of the differential components of the driving signals.

Abstract: Embodiments of a processor architecture utilizing multi-bank implementation of physical register mapping table are provided. A register renaming system to correlate architectural registers to physical registers includes a physical register mapping table and a renaming logic. The physical register mapping table has a plurality of entries each indicative of a state of a respective physical register. The mapping table has a plurality of non-overlapping sections each of which having respective entries of the mapping table. The renaming logic is coupled to search a number of the sections of the mapping table in parallel to identify entries that indicate the respective physical registers have a first state. The renaming logic selectively correlates each of a plurality of architectural registers to a respective physical register identified as being in the first state. Methods of utilizing the multi-bank implementation of physical register mapping table are also provided.

Abstract: A photovoltaic cell may include a hydrogenated amorphous silicon layer including a n-type doped region and a p-type doped region. The n-type doped region may be separated from the p-type doped region by an intrinsic region. The photovoltaic cell may include a front transparent electrode connected to the n-type doped region, and a rear electrode connected to the p-type doped region. The efficiency may be optimized for indoor lighting values by tuning the value of the H2/SiH4 ratio of the hydrogenated amorphous silicon layer.

Abstract: A method for protecting communication between an electromagnetic transponder and a terminal, wherein the transmission of a polling request by the terminal is only allowed when the transponder is in mechanical contact or in quasi-mechanical contact with the terminal.

Abstract: An embodiment relates to a method for color processing of an input image, the method including the steps of low-pass filtering of the input image to obtain a low-pass component, high-pass filtering of the input image to obtain a high-pass component, processing the input image for edge detection to obtain edginess parameters, and performing a color-space transformation of the input image based on the low-pass component, the high-pass component, and the edginess parameters.

Abstract: An integrated MEMS gyroscope, is provided with: at least a first driving mass driven with a first driving movement along a first axis upon biasing of an assembly of driving electrodes, the first driving movement generating at least one sensing movement, in the presence of rotations of the integrated MEMS gyroscope; and at least a second driving mass driven with a second driving movement along a second axis, transverse to the first axis, the second driving movement generating at least a respective sensing movement, in the presence of rotations of the integrated MEMS gyroscope. The integrated MEMS gyroscope is moreover provided with a first elastic coupling element, which elastically couples the first driving mass and the second driving mass in such a way as to couple the first driving movement to the second driving movement with a given ratio of movement.

Abstract: A method wherein the updating of a counter is triggered when a photodiode reaches a discharge threshold.

Abstract: An integrated MEMS structure includes a driving assembly anchored to a substrate and actuated with a driving movement. A pair of sensing masses suspended above the substrate and coupled to the driving assembly via elastic elements is fixed in the driving movement and performs a movement along a first direction of detection, in response to an external stress. A coupling assembly couples the pair of sensing masses mechanically to couple the vibration modes. The coupling assembly is formed by a rigid element, which connects the sensing masses and has a point of constraint in an intermediate position between the sensing masses, and elastic coupling elements for coupling the rigid element to the sensing masses to present a first stiffness to a movement in phase-opposition and a second stiffness, greater than the first, to a movement in phase, of the sensing masses along the direction of detection.

Abstract: Methods and apparatus for implementing a robust unicast/broadcast/multicast protocol are provided. In one aspect, a method of avoiding collision of intra-basic service set unicast, broadcast or multicast transmissions notifies stations in the basic service set of a reserved transmit opportunity for a unicast, broadcast or multicast transmission. Transmissions from at least one station in the basic service set are deferred until after the reserved unicast, broadcast or multicast transmit opportunity.