Patent application number | Description | Published |
20080225987 | Asynchronous interconnection system for 3D interchip communication - An embodiment of the present invention relates to a asynchronous interconnection system comprising a transmitter circuit and a receiver circuit inserted between inserted between respective first and second voltage references and having respective transmitter and receiver nodes coupled in a capacitive manner. The receiver circuit comprises: a recovery stage inserted between the first and second voltage references of the receiver circuit and connected to the receiver node; and a state control stage, in turn inserted between the first and second voltage references of the receiver circuit connected to the recovery stage correspondence with a first feedback node providing a first control signal and having a second feedback node connected in a feedback manner to the recovery stage. The recovery stage comprises a first feedback loop connected to the first feedback node and acting in such a way to recover a received voltage signal and a feedback loop connected to the second feedback node of the state control stage and acting in such a way to deactivate the recovery feedback on the receiver node and guarantee that the receiver node is let in a high impedance state. | 09-18-2008 |
20090168860 | COMMUNICATION SYSTEM BETWEEN A FIRST AND A SECOND SYNCHRONOUS DEVICE THAT ARE UNCORRELATED IN TIME - A communication system includes first and second independently clocked devices, comprising, for each device, a transmitter and a receiver connected to each other in a crossed way in correspondence of an inter-chip communication channel. The communication system further comprises a synchronizer in turn including at least a first and a second synchronization block, having respective input terminals connected to the receivers and respective output terminals connected to the transmitters and comprising at least: a test pattern generator that generates a programmable test pattern signal; a pattern detector to check a matching between stored and received test pattern signals and thus lock corresponding clock phases of the synchronization blocks in case of positive result of this check; and a delay block able to change the clock phases until a synchronized condition of the synchronization blocks is verified, this synchronized condition corresponding to a matching between stored and received test pattern signals. | 07-02-2009 |
20090168938 | COMMUNICATION SYSTEM FOR CONNECTING SYNCHRONOUS DEVICES THAT ARE UNCORRELATED IN TIME - A communication system for the connection between timing non-correlated synchronous devices comprising at least one transmitter and one receiver inserted between a first and a second voltage reference and connected to each other through a transmission channel in correspondence with respective transmitting and receiving terminals Advantageously, the receiver comprises at least one asynchronous input stage suitable for receiving on the receiving terminal a datum and associated with a synchronous output stage suitable for transmitting this datum in a synchronized way with a clock signal on a synchronized receiving terminal. A method transmits a datum from a transmitter to a receiver interconnected by a capacitive channel in a communication system for the connection between independently clocked devices. | 07-02-2009 |
20100164547 | BASE CELL FOR ENGINEERING CHANGE ORDER (ECO) IMPLEMENTATION - A base cell for an Engineering Change Order (ECO) implementation having at least a first pair of CMOS transistors and a second pair of CMOS transistors, characterized in that said at least first pair of CMOS transistors have a common gate and said at least second pair of CMOS transistors have separate gates. | 07-01-2010 |
20100169857 | METHOD FOR DESIGNING A HIGH PERFORMANCE ASIC (APPLICATION-SPECIFIC INTEGRATED CIRCUIT) ACCELERATOR - A method is for designing an accelerator for digital signal processing including defining a software programmable fully pre-laid out macro by pre-laying out with a fixed topology a control logic of the DSP accelerator to obtain a fully pre-laid out control logic. The method further includes defining a hardware programmable partially pre-laid out macro by customizing a configurable layout area, thereby mapping a computational logic based on computation kernels related to an application of the DSP accelerator. A partially pre-laid out computational logic is therefore obtained. | 07-01-2010 |
20120001655 | BASE CELL FOR IMPLEMENTING AN ENGINEERING CHANGE ORDER (ECO) - A circuit base cell is for implementing an engineering change order (ECO) obtained on a semiconductor substrate. The base cell may include a PMOS transistor having a first active region obtained in a first diffusion P+ layer implanted in an N-well provided for on the substrate, and an NMOS transistor having a second active region obtained in a second diffusion N+ layer implanted on the substrate in such a manner as to be electrically insulated from the first diffusion P+ layer. The cell may be characterized in that the active regions and the diffusion layers are aligned therebetween with respect to a reference axis and they are extended symmetrically in the direction orthogonal to the axis. A first and a second width may be associated with the active regions and to the diffusion layers, respectively. The first and second width may be greater than a width of the cell, which is equivalent to a pitch of the standard minimum cell. | 01-05-2012 |