Abstract: The present application relates to a copy-protected compact disc and a method for producing the optical disc and preventing unauthorized copying. The contents of at least one of the lead-in items in the optical disc are altered so that it is no longer uniform, thereby making a copied disc effectively corrupted and unplayable.
Abstract: A copy-protected compact disc and a method for producing the optical disc and preventing unauthorized copying is provided. In one embodiment, the contents of at least one of the lead-in items in the optical disc are altered so that it is no longer uniform, thereby making a copied disc effectively corrupted and unplayable.
Abstract: A distribution server distributes A/V content to a recipient according to terms determined from information stored in a database of prior unauthorized copying attributed to that recipient. The copy distributed to the recipient includes identifications of the content and recipient embedded in it by an ID embedder employing a steganographic or watermarking technique. A detection server detects embedded ID's in A/V content sampled from various distribution channels, and provides the ID information to the distribution server to update the database of prior unauthorized copying.
Abstract: A method for forming a localized halo implant region, comprises: implanting a first dosage of ions of a first type toward a surface of a substrate having a gate electrode formed thereon, so as to form a lightly doped region adjacent to the gate electrode; forming a disposable spacer on a sidewall of the gate electrode; forming an elevated source/drain structure adjacent to the disposable spacer; implanting a second dosage of ions of the first type toward the surface of the substrate so as to form a heavily doped region adjacent to the disposable spacer; removing the disposable spacer; and tilt-angle implanting at least one dosage of ions of a second type toward a gap created by the disposable spacer having been removed so as to form a localized halo implant region in the substrate, preferably by utilizing shadow effects of the gate electrode and the elevated source/drain structure.
Abstract: Method and apparatus for “copy-once” of a digital video signal uses a watermark in the video signal. The embedded watermark has two versions: one indicates copy-never and a second indicates copy-once, the difference being a single watermark bit. The watermark carries additional bits representing a digitized attribute (image characteristic) of a particular video frame of the video signal, for instance an average value of the amplitude of a video field. The frame whose attribute is carried in the watermark has a field (or frame) marker, which is a special signal located in the overscan portion of the frame. A compliant video recorder verifies the watermark and the copy-once bit, extracts the associated attribute from the watermark, and compares it to the measured attribute of the marked video frame. Only if the extracted attribute value and the measured attribute value match is recording enabled.
Abstract: A method of generating R,C parameters corresponding to statistically worst case interconnect delays for computer simulation of integrated circuit designs, comprising the steps of: computing a statistically worst case interconnect delay from randomly generated material and geometry values characterizing an integrated circuit interconnect process; computing a representative set of material and geometry values corresponding to the statistically worst case interconnect delay; and computing R,C parameters corresponding to the statistically worst case interconnect delay from the representative set of material and geometry values.
Abstract: A method and circuit to regulate a random waveform signal to ensure that the LED indicator driven by the waveform signal is visible to the human eye is provided. The method and circuit first determines whether there is a pulse occurring. If an on-going pulse is detected, the regulated waveform signal is driven HIGH for at least 8 clock cycles. If no on-going pulse is detected, the regulated waveform signal is driven LOW for at least 8 clock cycles.
Abstract: A sense amplifier circuit is incorporated within a computer system and utilizes a latch coupled to an equalizing transistor that operates in the triode region and initially equalizes the sense amplifier circuit data outputs, the latch subsequently develops a voltage difference in response to a control signal, deactivation of the control signal then turns off the equalizing transistor thereby allowing the latch circuit to lock the developed voltage differential to full-swing across the sense amplifier data outputs.
Abstract: A data communication circuit of a computer system, includes transmitter and receiver circuits each having first and second data paths for respectively communicating synchronously and asynchronously formatted data on an alternatively selected basis, and a control circuit for controlling such communications. Included in the first data paths of the transmitter and receiver circuits are certain field check generating or error checking circuitry which are switchably coupled by their respective control circuits to their corresponding second data paths when synchronously formatted data is being asynchronously communicated through the second data paths.
Type:
Grant
Filed:
March 29, 1996
Date of Patent:
June 2, 1998
Assignee:
Cirrus Logic, Inc.
Inventors:
Hanumanthrao V. Nimishakvi, Kameswaran Sivamani