Abstract: A digital video encoder is presented adapted for dynamically switching between sets of quantizer matrix tables without pausing encoding of a stream of video data. Two or more sets of quantizer matrix tables are held at the encoder's quantization unit and compressed store interface for dynamically switching between sets of quant matrix tables at a picture boundary of the sequence of video data, i.e., without stopping encoding of the sequence of video data. Further, while one set of matrix tables is being employed to quantize the stream of video data, the encoder can be updating or modifying another set of quantization matrix tables, again without stopping encoding of the sequence of video data.

Abstract: Temporal compression of a digital video data stream with hierarchically searching in at least one search unit for pixels in a reference picture to find a best match for the current macroblock. This is followed by constructing a motion vector between the current macroblock and the best match macroblock in the reference picture.

Abstract: System for reducing power consumption in MPEG-2 compliant video encoder circuitry employs logic for controlling first clock signals input to functional I, HSU and RSU blocks and functional sub-units performing specific tasks therein. Second clock signals are continuously input to a processing detection circuits requiring continuous clock inputs throughout video encode operations for a functional sub-unit. A trigger signal is asserted by the sub-unit itself or, an external processor, to indicate idle or active processing for that particular sub-unit. The combination of the second clock signals and receipt of the trigger signal enable the sub-unit to generate a sleep signal for that sub-unit which is input to a clock control circuit to either enable input of first clock signals to the functional sub-unit during active processing or, disable input of the first clock signal during idle, in-active processing periods, for as long as the trigger signal is asserted.

Abstract: More than 2 power N external conditions are determined by a circuit package. Connections are made from N inputs to either a first or second contact at either a first or second logic state respectively or to digital outputs. The outputs may be sequentially placed at either the first or second logic state. By recording an indication signal from the inputs an electronic circuit is adapted to determine more than 2 power N conditions.

Abstract: A method for spatial compression of a digital video picture to obtain the quantizer step size so as to avoid over "lossy" reconstruction and loss of detail. The first step is dividing the picture into a plurality of macroblocks, for example, 16.times.16 macroblocks, each macroblock having luminance or chrominance pixel blocks, for example four 8.times.8 pixel blocks. This is followed by multiplying each luminance pixel block by a modified frequency ordered Hadamard matrix to yield a first dimension of each luminance pixel block. The first dimension of each pixel block is then multiplied by the inverse of the modified frequency ordered Hadamard matrix to yield a second dimension of each luminance pixel block. The second dimension of the pixel luminance block is then weighted against a weight matrix, and the individual weighted terms are summed for each pixel block. The minimum of the weighted terms is selected. This minimum is used to detect the edge or texture of the macroblock, e.g.

Abstract: A scalable architecture MPEG2 compliant digital video encoder system having an I-frame only video encoder module with a Discrete Cosine Transform processor, a quantization unit, a variable length encoder, a FIFO buffer, and a compressed store interface, for generating an I-frame containing bitstream. For IPB bitstreams the system includes a second processor element with a reference memory interface, motion estimation and compensation capability, inverse quantization, and inverse discrete cosine transformation, and motion compensation means; and at least one third processor element motion estimation. The system can be in the form of a single integrated circuit chip, or a plurality of integrated circuit chips, that is one for each processor, the I-frame video encoder module, the second processor element, and the third processor element. There can be one or more of the third processor units.

Abstract: Method and apparatus for encoding a digital video image stream in an encoder. The encoding includes spatial compression of still images in the digital video image stream and temporal compression between the still images. The spatial compression is carried out by converting a time domain image of a macroblock to a frequency domain image of the macroblock, taking the discrete cosine transform of the frequency domain image, transforming the discrete cosine transformed macroblock image by a quantization factor, and run length encoding the quantized discrete cosine transformed macroblock image. The temporal compression is carried out by reconstructing the run length encoded, quantized, discrete cosine transformed image of the macroblock, searching for a best match macroblock, and constructing a motion vector between them. This forms a bitstream of runlength encoded, quantized, discrete cosine transformed macroblocks and of motion vectors.

Abstract: Disclosed is a digital video encoder processor for discrete cosine transform encoding. The discrete cosine transform encoding includes the encoding steps of (1) determining the discrete cosine transform field or frame type, (2) addressing individual pixels as either (i) vertically adjacent pixels on consecutive Odd and Even field lines, or (ii) vertically adjacent pixels on consecutive Odd field lines, then consecutive Even field lines; or (iii) vertically adjacent pixels on consecutive Even field lines, then consecutive Odd field lines. These subtractions may be performed between (i) consecutive lines, (ii) odd lines, or (iii) even lines. The next step is finding the smallest variance of the above subtractions to determine the discrete cosine transform coding type. The subtractions are carried out in a dynamically partitionable processor having a plurality of datapaths.