Abstract: One time programmable memory devices are disclosed that are programmed using hot carrier induced degradation to alter one or more transistors characteristics. A one time programmable memory device is comprised of an array of transistors. Transistors in the array are selectively programmed using hot carrier induced changes in one or more transistor characteristics, such as changes to the saturation current, threshold voltage or both, of the transistors. The changes to the transistor characteristics are achieved in a similar manner to known hot carrier transistor aging principles. The disclosed one time programmable memory devices are small and programmable at low voltages and small current.

Abstract: A method and apparatus are provided for reducing leakage current in a read only memory device. Leakage current is reduced by reducing the duration of the precharge cycle during each read cycle so that the associated leakage current will flow for a shorter time period during each cycle. The precharge phase is positioned at the beginning of each read cycle, prior to the evaluation phase.

Abstract: A memory self-testing system, apparatus, and method are provided which allow for testing for a plurality of bit errors and passing memory arrays having an error level which is correctable using selected error correction coding. An exemplary system embodiment includes a memory array, a comparator, an integrator, and a test control circuit. The memory array is adapted to store input test data and output stored test data during a plurality of memory read and write test operations. The comparator compares the input test data and the stored test data for a plurality of bit positions, and provides a corresponding error signal when the stored test data is not identical to the input test data for each bit position of the plurality of bit positions. The integrator receives the corresponding error signal and maintains the corresponding error signal for each bit position during the plurality of test operations.

Abstract: A method and apparatus are provided for reducing leakage current in a read only memory device. Leakage current is reduced by reducing the duration of the precharge cycle during each read cycle so that the associated leakage current will flow for a shorter time period during each cycle. The precharge phase is positioned at the beginning of each read cycle, prior to the evaluation phase. The precharge phase is terminated by a subsequent clock edge or by an internal time out prior to a subsequent clock edge. The time interval between when the columns reach their precharge voltage and the evaluation phase begins is reduced.

Abstract: A method and apparatus are provided for reducing leakage current in a read only memory device. Leakage current is reduced by precharging only a portion of the columns in a read only memory array during a given read cycle. The portion of the columns that are precharged is limited to a subset of columns that includes those columns that will be read during a given read cycle. A read column address is decoded to precharge only the portion of the columns of transistors that will be read during the given read cycle. The columns of transistors can be grouped into a plurality of sub-arrays and only those sub-arrays having columns that will be read during a given read cycle are precharged during the read cycle.

Abstract: A method and apparatus are provided for reducing leakage current in a read only memory device. Leakage current is reduced by applying a biased gate voltage (relative to a source voltage) to the gate of at least one of transistor in the array. The biased gate voltage is applied at least during a precharge phase of a read cycle. When the array transistors are n-channel transistors, the biased voltage is a negative bias voltage (relative to the source voltage). When the array transistors are p-channel transistors, the biased voltage is a positive bias voltage (relative to the source voltage). Applying a negative backgate bias to the transistor's p-well contact can also reduce n-channel transistor subthreshold leakage current. Thus, for an n-channel array, a negative gate voltage and backgate bias (optional) are applied to cell transistors in the off state.

Abstract: A device and method is provided for effecting soft repair of semiconductor memory embedded within an integrated circuit. The invention temporarily and in a non-volatile or quasi-non-volatile manner stores data within the structure of the semiconductor chip. This data respects chip performance at a first test point and may be made available directly from the chip at a second test point. In a particular embodiment of the invention, on-chip non-volatile memory is utilized to communicate reconfiguration codes between two testpoints for soft repair of SRAM and DRAM memory. A reconfiguration code generated for the first test point is stored in the on-chip non-volatile memory and read out from that memory at the second test point. Illustratively, the on-chip non-volatile memory is implemented as quasi-non-volatile memory. In a further embodiment, the invention operates to communicate the reconfiguration codes between a single wafer probe testpoint and a package testpoint.

Abstract: A method and apparatus for opening a fuse formed on a semiconductor substrate. The apparatus comprises a thyristor formed from CMOS device regions and having a one or two control terminals for permitting current to flow through the thyristor into the fuse, for opening the fuse.

Abstract: An assay for detecting an analyte which comprises applying a sample containing analyte to a surface of an absorbent material having at least one binder for the analyte supported on at least a portion of the surface. The absorbent material has a porosity which is capable of retaining non-charged particles having a size of at least 0.1 micron and no greater than 10 microns on the surface thereof. The sample flows past the binder and into the absorbent material. Porous plastics or ceramics are preferred absorbent materials.