Abstract: An image data decoding system (2) is described in which a stream of compressed image data (1) corresponding to a plurality of image channels (ChA, ChB, ChC) each comprising intra-coded pictures (I) and inter-coded pictures (B, P) is received. A selected channel within the plurality of channels is fully decoded to produce display driving data. At least one non-selected channel is at least partially processed by the system even though it is not being displayed such that if a switch is made to that non-selected channel then display driving data for that newly selected channel can be produced without having to wait for the next intra-coded picture (I) to be received. The partial processing may take the form of merely buffering the compressed data for the non-selected channel. Alternatively, reference pictures or all pictures for the non-selected channel may be either fully decoded, or partially decoded to produce spatially sub-sampled versions of the pictures of the non-selected channels.

Abstract: A method of executing instructions in a computer system on operands containing a plurality of packed objects in respective lanes of the operand is described. Each instruction defines an operation and contains a condition setting indicator settable independently of the operation. The status of the condition setting indicator determines whether or not multibit condition codes are set. When they are to be set, they are set depending on the results of carrying out the operation for each lane.

Abstract: A decode circuit for selecting one of a plurality of output lines in dependence on the status of a plurality of input lines, the circuit comprising: a first decode arrangement comprising: a first decode node; first precharging circuitry for charging the first decode node to a charging potential; first discharging circuitry comprising a plurality of switching means each operable in dependence on the status of a respective one of the input lines to couple the first decode node to a discharging potential; and first selection circuitry coupled to a respective one of the output lines and operable in response to a first enable signal to select that output line if the first decode node has not discharged; and a second decode arrangement comprising: a second decode node; second precharging circuitry for charging the second decode node to a charging potential; second discharging circuitry comprising a plurality of switching means each operable in dependence on the status of a respective one of the input lines to coupl