Abstract: A match line circuit in a content addressable memory (CAM) has a match line coupled to a first pull-up device and a first pull-down device at a match node. The first pull-up device has selectively adjustable pull-up impedances associated with it. The match line circuit also includes a second pull-up device coupled to a second pull-down device at a float node, and an enabling signal for activating the match line circuit during a memory comparison operation. The enabling signal precharges the match node to a logic low level and the float node to a logic high level in between memory comparison operations.

Abstract: A method for determining a desired operating impedance for a computer memory circuit is disclosed, the computer memory circuit having a plurality of discrete, selectively adjustable impedance values associated therewith. In an exemplary embodiment of the invention, the method includes applying, to a reference circuit, a test impedance value to a reference circuit. The test impedance value is controlled by a binary count. A determination is made, based upon the applied test impedance value, whether the reference circuit is in either a first state or a second state. The binary count is incremented if the reference circuit is in the first state and decremented if the reference circuit is in the second state. A condition is determined in which the reference circuit oscillates between the first state and said second state, and a pair of binary count values is stored. The desired operating impedance for the computer memory circuit corresponds to the lower of the stored pair of binary count values.

Abstract: The present invention provides a memory architecture that allows memory checking and replacement of defective words by spare elements already provided on the chip that do not increase the chip size. The method of the invention uses a separate redundant array architecture to provide address translation, so that the redundant entries are represented as the correct entry index that they are replacing.

Abstract: A method for determining a desired operating impedance for a computer memory circuit includes applying, to a reference circuit, a test impedance value to a reference circuit. The test impedance value is controlled by a binary count. A determination is made, based upon the applied test impedance value, whether the reference circuit is in either a first state or a second state. The binary count is incremented if the reference circuit is in the first state and decremented if the reference circuit is in the second state. A condition is determined in which the reference circuit oscillates between the first state and said second state, and a pair of binary count values is stored. The desired operating impedance for the computer memory circuit corresponds to the lower of the stored pair of binary count values.

Abstract: A method for determining a desired operating impedance for a computer memory circuit is disclosed, the computer memory circuit having a plurality of discrete, selectively adjustable impedance values associated therewith. In an exemplary embodiment of the invention, the method includes applying, to a reference circuit, a test impedance value to a reference circuit. The test impedance value is controlled by a binary count. A determination is made, based upon the applied test impedance value, whether the reference circuit is in either a first state or a second state. The binary count is incremented if the reference circuit is in the first state and decremented if the reference circuit is in the second state. A condition is determined in which the reference circuit oscillates between the first state and said second state, and a pair of binary count values is stored. The desired operating impedance for the computer memory circuit corresponds to the lower of the stored pair of binary count values.

Abstract: The leakage current on a semiconductor is reduced while the semiconductor is in a sleep mode. This is accomplished by (1) placing the semiconductor in the sleep mode; (2) providing the semiconductor an internal supply voltage derived from an external supply voltage applied to the semiconductor chip (where the internal supply voltage is less in quantity than the external supply voltage); and (3) reducing the internal supply voltage when the semiconductor enters the sleep mode from an activated mode and returning the internal supply voltage to an activated mode level when the semiconductor returns to the activated mode. The reducing step includes supplying the external supply voltage to a reference circuit which outputs therefrom a reference voltage; and supplying the reference voltage to a regulator, where the regulator attempts to match the reference voltage and outputs therefrom the internal supply voltage.

Abstract: A Match-Detection Circuit and Match-Detection method, for low-power-consuming searches in a Content Addressable Memory. A HIT is output when the Match Line rises from a Low voltage level to a higher Match Detection Voltage. The Match Detection Voltage is approximately the conducting threshold voltage of an N-channel Field Effect Transistor (FET), and is normally less than One Half of the Power Supply Voltage. Circuits and methods to turn of the through-current in each MISS-ing entry by a carefully timed control signal at the end of a brief Match Detection Period, are disclosed.

Abstract: An apparatus and method are provided that preserve data coherency within a DDR SRAM without sacrificing SRAM performance. The presence of a read-following-double-write (RFDW) condition is detected and data is prevented from being output from the SRAM following detection of the RFDW condition until coherent data is available. To detect an RFDW condition, preferably a double write signal is detected during a double write operation, and the double write signal is latched. A read signal also is detected during a read operation and the latched double write signal is compared to the read signal. If both the latched double write signal and the read signal are in a logic state that indicates that each is being performed, the RFDW condition is deemed detected. To prevent data from being pre-maturely output from the SRAM, the off chip driver circuitry of the SRAM preferably is maintained in a tri-state condition and data within a write buffer of the SRAM preferably is blocked until coherent data is available.

Abstract: The leakage current on a semiconductor is reduced while the semiconductor is in a sleep mode. This is accomplished by (1) placing the semiconductor in the sleep mode; (2) providing the semiconductor an internal supply voltage derived from an external supply voltage applied to the semiconductor chip (where the internal supply voltage is less in quantity than the external supply voltage); and (3) reducing the internal supply voltage when the semiconductor enters the sleep mode from an activated mode and returning the internal supply voltage to an activated mode level when the semiconductor returns to the activated mode. The reducing step includes supplying the external supply voltage to a reference circuit which outputs therefrom a reference voltage; and supplying the reference voltage to a regulator, where the regulator attempts to match the reference voltage and outputs therefrom the internal supply voltage.

Abstract: The leakage current on a semiconductor is reduced while the semiconductor is in a sleep mode. This is accomplished by (1) placing the semiconductor in the sleep mode; (2) providing the semiconductor an internal supply voltage derived from an external supply voltage applied to the semiconductor chip (where the internal supply voltage is less in quantity than the external supply voltage); and (3) reducing the internal supply voltage when the semiconductor enters the sleep mode from an activated mode and returning the internal supply voltage to an activated mode level when the semiconductor returns to the activated mode. The reducing step includes supplying the external supply voltage to a reference circuit which outputs therefrom a reference voltage; and supplying the reference voltage to a regulator, where the regulator attempts to match the reference voltage and outputs therefrom the internal supply voltage.

Abstract: Scannable fuse latches are provided that can override current fuse values, read current fuse values, and latch current fuse values. Using the scannable fuse latches of the current invention allows current fuse values to be overridden, which can be important in testing and failure analysis to place the integrated circuit in a known state. The scannable fuse latches of the current invention also allow current fuse values to be read. This aids failure analysis because the current state of the failed integrated circuit can be determined. Finally, the scannable fuse latches of the present invention allow the current state of fuses to be latched and provided to a core of an integrated circuit.

Abstract: A fully associative CAM that removes the need for a strobe and improves the overall performance of the CAM. The inventive CAM takes advantage of the fact that only one entry, if any, of the CAM will match the applied address. If a CAM entry matches the applied address, then it can be assumed that the address did not match the other CAM entries. Therefore, to access a certain entry in the memory array, it can be determined that the match lines of the CAM entries not corresponding to this certain matching entry in memory have each left the precharged state. By using the other state information, the proper memory bits can be selected without the use of a strobe.