Patent application number | Description | Published |
20100067607 | All-optical balanced detection system - A two gate sampling system designed to perform sampled balanced detection of one or more input signal pairs. The present invention performs simultaneous sampling of both signals in each signal pair followed by digitization and combination of the sample pairs using software. By first sampling the signals and then combine the sampled into the corresponding balanced detected signal it is possible to avoid the bandwidth limitations and impedance problems introduced by traditional balanced detectors and electrical oscilloscopes. In particular for optical sampling gates very high bandwidth sampling gates can be designed without any impedance issues and hence almost perfect balanced detection reconstruction can be performed for very high speed signals. Balanced detection is becoming more and more important as the new phase modulated optical data signals are introduced to the market, such as e.g. PSK, DPSK, QPSK and DQPSK. The present invention is well suited for analysis of these new type of signals. | 03-18-2010 |
20100215357 | Optical Sampling With Coherent Detection - An optical sampling arrangement for high-speed measurement of the time-varying electric field of a data-carrying optical input signal. The present invention includes optical sampling of the optical input signal, followed by coherent mixing with a reference laser source in an optical hybrid solution. The generated streams of mixed optical samples are then detected and signal processed in order to reconstruct a sampled version of the electric field of the data-carrying optical input signal. | 08-26-2010 |
20110182573 | All-Optical Balanced Detection System - A two-gate sampling system has been designed to perform sampled balanced detection of one or more input signal pairs. The present invention performs simultaneous sampling of both signals in each signal pair followed by digitization and combination of the sample pairs using software. By first sampling the signals and then combining the sampled into the corresponding balanced detected signal it is possible to avoid the bandwidth limitations and impedance problems introduced by traditional balanced detectors and electrical oscilloscopes. In particular, for optical sampling gates very high bandwidth sampling gates can be designed without any impedance issues and hence almost perfect balanced detection reconstruction can be performed for very high speed signals. Balanced detection is becoming more and more important as the new phase modulated optical data signals are introduced to the market, such as e.g. PSK, DPSK, QPSK and DQPSK. The present invention is well suited for analysis of these new types of signals. | 07-28-2011 |
20120134667 | All-Optical, Phase Sensitive Optical Signal Sampling - An optical sampling arrangement for high-speed measurement of the time-varying electric field of an optical input signal utilizes coherent mixing of the optical input signal with a reference laser source in a phase-diverse optical hybrid solution, followed by optical sampling of the coherently-mixed fields at the output of the optical hybrid. The generated streams of optical samples are then detected and signal processed in order to reconstruct a sampled version of the electric field of the original optical input signal. | 05-31-2012 |
20140341564 | METHOD AND SYSTEM FOR COMMON-MODE-REJECTION-RATIO (CMRR) CHARACTERIZATION OF AN INTEGRATED COHERENT RECEIVER - There are provided a method and a system for characterizing the CMRR of an ICR under test, which employ highly coherent light from two continuous-wave (CW) single-frequency lasers whose respective optical frequencies mutually differ by an offset defining an “Intermediate Frequency” (f | 11-20-2014 |
20150110486 | IN-BAND OSNR MEASUREMENT ON POLARIZATION-MULTIPLEXED SIGNALS - There is provided a system and a method for determining an in-band noise parameter representative of the optical noise contribution (such as OSNR) on a polarization-multiplexed optical Signal-Under-Test (SUT) comprising two polarized phase-modulated data-carrying contributions and an optical noise contribution. For each of a multiplicity of distinct polarization-analyzer conditions, the SUT is analyzed to provide at least one polarization-analyzed component of the SUT and the polarization-analyzed component is detected with an electronic bandwidth at least ten times smaller than the symbol rate of the SUT to obtain a corresponding acquired electrical signal; for each acquired electrical signal, a value of a statistical parameter is determined from the ac component of the acquired electrical signal, thereby providing a set of statistical-parameter values corresponding to the multiplicity of distinct polarization-analyzer conditions; and, from the set of statistical-parameter values, the in-band noise parameter is mathematically determined. | 04-23-2015 |
Patent application number | Description | Published |
20130315259 | Method and Apparatus for Internal/External Memory Packet and Byte Counting - Systems and methods are provided for counting a number of received packets and a number of bytes contained in the received packets. A system includes a first memory disposed in an integrated circuit, the first memory being configured as a first combination counter having a first set of bits for storing a subtotal of received packets, and a second set of bits for storing a subtotal of bytes contained in the received packets. A second memory is external to the integrated circuit. The second memory is configured to store a total number of received packets and a total number of bytes contained in the received packets. Update circuitry is configured to update the total number of packets stored in the second whenever either of the first set of bits or the second set of bits overflows in the first memory. | 11-28-2013 |
20140247835 | SYSTEM AND METHOD FOR MODIFYING, IN A PROCESSING PIPELINE, A LENGTH OF A DATA PACKET IN A DATA BLOCK WITHOUT MODIFYING A LENGTH OF THE DATA BLOCK - A system including a receiver and a processing pipeline. The receiver is configured to generate a data block by encapsulating a data packet in a header portion and a tail portion that do not include valid information bits. The processing pipeline is configured to, in a first processing stage, store the data block, and store, separately from the data block, additional information associated with the data block. The processing pipeline is further configured to, without modifying a length of the data block, either add bits to the header portion or the tail portion to increase the length of the data packet or subtract bits from the data packet to decrease the length of the data packet, and modify the additional information in accordance with the bits added to the header portion or the tail portion or the bits subtracted from the data packet. | 09-04-2014 |
20140358886 | INTERNAL SEARCH ENGINES ARCHITECTURE - A pipeline of memory banks is configured to store and retrieve a forwarding address by distributing portions of the address across the memory banks and subsequently searching for the distributed values. A first value of the address is recoverable by searching for a value, stored by a first memory bank, by consuming a predetermined number of bits of a data unit from a data packet. If present, a subsequent value of the address is recoverable by searching another memory bank of the pipeline for a value of the address contained by a node of a linked list. The pipeline recovers the address by combining value found at the first memory bank with the value found by the node of the linked list at the other memory bank. | 12-04-2014 |
20150215204 | METHOD AND APPARATUS FOR PRE-CLASSIFYING PACKETS - The disclosed embodiments relate to a system that provides an intelligent port infrastructure for communication network devices. This is accomplished by incorporating a highly configurable pre-classifier module into the port infrastructure. This pre-classifier makes it possible to realign packet data to add a configurable number of bytes to the front of the packet, and also to select interesting data from incoming packets for further analysis. The selected data is sent into a configurable classification engine, which generates instructions that specify how to determine associated packet attributes. The packet attributes are then generated based on the instructions, and are forwarded along with the packet to downstream processing units. | 07-30-2015 |