Abstract: The present invention provides methods and probe nucleic acids for detecting mutant forms of target nucleic acids that comprise repetitive nucleotide sequences. In certain embodiments, for example, these approaches and reagents can be used to detect instability in regions of genomic DNA that include microsatellite markers. The invention also provides related reaction mixtures, systems, and kits.

Abstract: Presented herein are inverse quantization and transform system(s) and method(s). In one embodiment, there is presented a method for deblocking. The method comprises reconstructing a macroblock, said macroblock comprising four blocks; and completing deblocking of a first one of the four blocks, with blocks from three neighboring blocks.

Abstract: The invention provides compositions that comprise nucleotides and/or nucleosides having blocking groups at 2?-positions of sugar moieties. Methods of synthesizing these nucleic acids are also provided.

Abstract: The present invention relates to methods and reagents for modifying the emission of light from labeled nucleic acids for the purpose of real time detection, analysis, and quantitation of nucleic acid sequences, e.g., using singly labeled probes. These methods and reagents exploit advantageous properties of thiazine dyes and diazine dyes. Furthermore, the use of these light emission modifiers in background reduction, nucleic acid duplex stabilization and other uses is also described. Related kits, reaction mixtures and integrated systems are described.

Abstract: In a video processing system, a method and system for dynamic selection of transform size in a video decoder based on signal content are provided. For high profile mode video decoding operations, inverse transform sizes may be selected from a 4×4 or an 8×8 inverse transform size based on a transform size syntax element generated by the encoding operation and transmitted as part of the encoded video information bit stream. A set of rules is defined for selecting the transform size based on a macroblock type and a size of the macroblock type of a received macroblock in a video decoder. Dynamic selection of transform size may be performed on intra-coded macroblocks, inter-coded macroblocks, and/or direct mode inter-coded macroblocks.

Abstract: Video data is processed. A first high definition program stream is received that includes a first high definition video stream component. A first standard definition program stream is derived from the high definition program stream. A second standard definition is received having been derived from the first standard definition program stream. A second high definition program stream is derived from the second standard definition program stream and the first high definition video stream component.

Abstract: Video data is processed. A first high definition program stream is received that includes a first high definition video stream component. A first standard definition program stream is derived from the high definition program stream. A second standard definition is received having been derived from the first standard definition program stream. A second high definition program stream is derived from the second standard definition program stream and the first high definition video stream component.

Abstract: The present invention is directed to a method for isolating a polynucleotide of interest that is present or is expressed in a genome of a first mycobacterium strain and that is absent or altered in a genome of a second mycobacterium strain which is different from the first mycobacterium strain using a bacterial artificial chromosome (BAC) vector. The invention further relates to a polynucleotide isolated by this method and recombinant BAC vector used in this method. In addition the present invention comprises method and kit for detecting the presence of a mycobacteria in a biological sample.

Abstract: A system and method for processing video are disclosed. The method may include, in a chip, parsing an encoded video stream to determine one or more identifiers that identifies one or more corresponding CODEC to be utilized for decoding one or more corresponding portions of said encoded video stream. Corresponding portions of the encoded video stream may be decoded utilizing the identified one or more corresponding CODECs. The corresponding portions of the encoded video stream may be concurrently decoded utilizing the identified one or more corresponding CODECs. The one or more corresponding CODECs to be utilized for the decoding of the one or more corresponding portions of the encoded video stream may be selected from a plurality of CODECs.

Abstract: Methods, reaction mixtures and systems for detecting the presence or absence of a target nucleic acid variant from a selection of possible variants is described.

Abstract: An improved method of preventing carryover contamination of an amplification reaction involves treating uracil-containing DNA with uracil-N-DNA glycosylase and heating the DNA in the presence of polyamines, such as spermidine, spermine and the like. Alternatively, after treatment with uracil-N-DNA glycosylase, the reaction is further incubated with an enzyme having AP lyase activity.

Abstract: Methods and systems for video transmission and processing with customized watermarking delivery are disclosed and may include watermarking data at a communication device utilizing received global positioning (GPS) data and communicating the watermarked video data to a receiving communication device. The receiving communication device may verify the watermarked data, and may determine whether to render the received watermarked data based on the verification. The communication device may include an edge device, and may receive a feedback signal communicated from the receiving communication device. The watermarking of subsequently processed data may be adjusted based on the received feedback signal, which may include GPS data and/or device parameters corresponding to the receiving communication device. The watermarked video data communicated to the receiving communication device may be adjusted based on one or more device parameters corresponding to the receiving communication device and/or GPS information.

Abstract: Described herein is a method and system for video classification. The method and system can use predetermined color ranges to classify a video block. On a relative basis, a greater number of bits can be allocated to perceptually important video data such as skin. The quantization is adjusted accordingly. Determining relative quantization shifts for macroblocks in a picture prior to video encoding enables a corresponding bit allocation that can improve the tradeoff between perceptual quality and bit rate.

Abstract: The present invention relates to methods and reagents for modifying the emission of light from labeled nucleic acids for the purpose of real time detection, analysis, and quantitation of nucleic acid sequences, e.g., using singly labeled probes. These methods and reagents exploit advantageous properties of thiazine dyes and diazine dyes. Furthermore, the use of these light emission modifiers in background reduction, nucleic acid duplex stabilization and other uses is also described. Related kits, reaction mixtures and integrated systems are described.

Abstract: The present invention relates to methods and reagents for modifying the emission of light from labeled nucleic acids for the purpose of real time detection, analysis, and quantitation of nucleic acid sequences, e.g., using singly labeled probes. These methods and reagents exploit advantageous properties of thiazine dyes and diazine dyes. Furthermore, the use of these light emission modifiers in background reduction, nucleic acid duplex stabilization and other uses is also described. Related kits, reaction mixtures and integrated systems are described.

Abstract: The present invention relates to methods and reagents for modifying the emission of light from labeled nucleic acids for the purpose of real time detection, analysis, and quantitation of nucleic acid sequences, e.g., using singly labeled probes. These methods and reagents exploit advantageous properties of thiazine dyes and diazine dyes. Furthermore, the use of these light emission modifiers in background reduction, nucleic acid duplex stabilization and other uses is also described. Related kits, reaction mixtures and integrated systems are described.

Abstract: Methods and systems for processing video are disclosed. The method may include performing by one or more processors and/or circuits on a chip, receiving packetized data within an encoded video stream. An identifier may be determined within the received packetized data that defines one of a plurality of encoding types associated with packets in the encoded video stream. A decoding process may be selected from a plurality of decoding processes based on the determined identifier. The plurality of decoding processes may include a fixed length coding (FLC) process, a variable length coding (VLC) process and/or a context adaptive binary arithmetic coding (CABAC) process. At least a portion of the received packetized data in the encoded video stream may be decoded on the chip, utilizing the selected decoding process. A start code may be determined within the received packetized data that separates packets within the encoded video stream.

Abstract: Methods and systems for processing an encoded video stream are disclosed herein. Aspects of the method may comprise receiving on a chip, packetized data within the encoded video stream. An identifier within the received packetized data may be determined on the chip, where the identifier may define one of a plurality of encoding types associated with packets in the encoded video stream. A decoding process may be selected on the chip from a plurality of decoding processes, based on the determined identifier. A portion of the received packetized data in the encoded video stream may be decoded on the chip utilizing the selected decoding process. A header may be determined within the received packetized data that separates packets within the encoded video stream. A plurality of bytes within the received packetized data may be matched with a determined byte sequence.

Abstract: Bursts of data are managed. Data is stored in a machine readable memory device a first time at a first memory address. The machine readable memory device has one or more burst boundaries. The first memory address has a first alignment with respect to the burst boundaries. The data is stored in the machine readable memory device a second time at a second memory address. The second memory address has a second alignment with respect to the burst boundaries.

Abstract: A photomask assembly and method for protecting the photomask assembly from contaminants generated during a lithography process are disclosed. A photomask assembly includes a pellicle assembly formed from a pellicle frame and a pellicle film coupled to a first surface of the pellicle frame. The pellicle frame further includes an inner wall and an outer wall. A photomask is coupled to a second surface of the pellicle frame opposite the pellicle film. A molecular sieve that prevents airborne molecular contaminants (AMCs) generated during a lithography process from contaminating the photomask is associated with the pellicle assembly.