Abstract: A configuration for a laser fuse bank is disclosed wherein the available space is more efficiently used. Fuses of graduated width and variable configuration are placed so as to minimize the average distance between fuses and maximize fuse density. Alternatively, a common source is added to a standard laser fuse structure such that it intersects the fuses and the number of available fuses is doubled.

Abstract: The invention is a dynamic random access memory (DRAM) device having an electronic test key fabricated on board and is a method for testing the DRAM. The electronic test key generates a signal which effects a variation in a period of an internal control signal to stress the DRAM during a test mode.

Abstract: In an integrated circuit having addressable primary elements and redundant elements which can be programmed to replace primary elements, a circuit and method are provided for cancelling and replacing redundant elements. A circuit is described which can be used in a memory such as a dynamic random access memory (DRAM) which uses a selectively blowable anti-fuse to disable a redundant element which was previously programmed to replace a defective primary element. The disclosure describes a method for permanently cancelling the defective redundant element and replacing the defective redundant element with another redundant element.

Abstract: A dynamic memory is described which uses a multiplexed latch architecture and global bit lines. The multiplexed architecture allows the memory to operate as a synchronous pipelined cache memory in a computer processing system. The global bit lines are fabricated parallel to memory array bit lines and data input/output connections are distributed around the memory to increase speed. Multiplexed latch circuitry is provided which incorporates separate data paths for both data read and write operations.

Abstract: A row repair system for replacing a defective primary memory row with a redundant memory row within an entire section of an integrated circuit memory chip. The system comprises a dedicated match circuit for each redundant row in a given section. The match circuit analyzes incoming address information to determine whether the address corresponds to a memory location in a specific defective row in any one of a number of sub-array blocks within the section. When such a critical address is detected, the match circuit activates circuitry which inhibits access to the defective row and enables access to its dedicated redundant row.

Abstract: An integrated circuit memory device has multiple subarray partitions which can be independently isolated from the remaining circuitry on the integrated circuit. Subarrays of the integrated circuit can be independently tested. Should a subarray of the integrated circuit be found inoperable it is electrically isolated from the remaining circuitry on the integrated circuit so that it cannot interfere with the normal operation of the remaining circuitry. Defects such as power to ground shorts in a subarray which would have previously been catastrophic can be electrically isolated allowing the remaining functional subarrays to be utilized. Integrated circuit repair by isolation of inoperative elements eliminates the current draw and other performance degradations that have previously been associated with integrated circuits with defects repaired through the incorporation of redundant elements alone.

Abstract: A dynamic memory is described which uses a multiplexed latch architecture and global bit lines. The multiplexed architecture allows the memory to operate as a synchronous pipelined cache memory in a computer processing system. The global bit lines are fabricated parallel to memory array bit lines and input/output connections are distributed around the memory to increase speed. Page access operations are controlled to allow either single or burst writes.

Abstract: A semiconductor dynamic random-access memory (DRAM) device embodying numerous features that collectively and/or individually prove beneficial and advantageous with regard to such considerations as density, power consumption, speed, and redundancyis disclosed. The device is a 64 Mbit DRAM comprising eight substantially identical 8 Mbit partial array blocks (PABs), each pair of PABs comprising a 16 Mbit quadrant of the device. Between the top two quadrants and between the bottom two quadrants are column blocks containing I/O read/write circuitry, column redundancy fuses, and column decode circuitry. Column select lines originate from the column blocks and extend right and left across the width of each quadrant. Each PAB comprises eight substantially identical 1Mbit sub-array blocks (SABs).

Abstract: The invention is a dynamic random access memory (DRAM) device having an electronic test key fabricated on board and is a method for testing the DRAM. The electronic test key generates a signal which effects a variation in a period of an internal control signal to stress the DRAM during a test mode.

Abstract: An integrated circuit memory device has multiple subarray partitions which can be independently isolated from the remaining circuitry on the integrated circuit. Subarrays of the integrated circuit can be independently tested. Should a subarray of the integrated circuit be found inoperable it is electrically isolated from the remaining circuitry on the integrated circuit so that it cannot interfere with the normal operation of the remaining circuitry. Defects such as power to ground shorts in a subarray which would have previously been catastrophic can be electrically isolated allowing the remaining functional subarrays to be utilized. Integrated circuit repair by isolation of inoperative elements eliminates the current draw and other performance degradations that have previously been associated with integrated circuits with defects repaired through the incorporation of redundant elements alone.

Abstract: A dynamic memory is described which uses a multiplexed latch architecture and global bit lines. The multiplexed architecture allows the memory to operate as a synchronous pipelined cache memory in a computer processing system. The global bit lines are fabricated parallel to memory array bit lines and input/output connections are distributed around the memory to increase speed. Page access operations are controlled to allow either single or burst writes.

Abstract: A dynamic memory is described which uses a multiplexed latch architecture and global bit lines. The multiplexed architecture allows the memory to operate as a synchronous pipelined cache memory in a computer processing system. The global bit lines are fabricated parallel to memory array bit lines and data input/output connections are distributed around the memory to increase speed. Multiplexed latch circuitry is provided which incorporates separate data paths for both data read and write operations.

Abstract: In an integrated circuit having addressable primary elements and redundant elements which can be programmed to replace primary elements, a circuit and method are provided for cancelling and replacing redundant elements. A circuit is described which can be used in a memory such as a dynamic random access memory (DRAM) which uses a selectively blowable anti-fuse to disable a redundant element which was previously programmed to replace a defective primary element. The disclosure describes a method for permanently cancelling the defective redundant element and replacing the defective redundant element with another redundant element.

Abstract: A configuration for a laser fuse bank is disclosed wherein the available space is more efficiently used. Fuses of graduated width and variable configuration are placed so as to minimize the average distance between fuses and maximize fuse density. Alternatively, a common source is added to a standard laser fuse structure such that it intersects the fuses and the number of available fuses is doubled.

Abstract: A semiconductor dynamic random-access memory (DRAM) device embodying numerous features that collectively and/or individually prove beneficial and advantageous with regard to such considerations as density, power consumption, speed, and redundancy is disclosed. The device is a 64 Mbit DRAM comprising eight substantially identical 8 Mbit partial array blocks (PABs), each pair of PABs comprising a 16 Mbit quadrant of the device. Between the top two quadrants and between the bottom two quadrants are column blocks containing I/O read/write circuitry, column redundancy fuses, and column decode circuitry. Column select lines originate from the column blocks and extend right and left across the width of each quadrant. Each PAB comprises eight substantially identical 1 Mbit sub-array blocks (SABs).

Abstract: A counter comprised of two flip flops and a multiplexer produces a sequential or interleaved address sequence. The addresses produced are used to access memory elements in a Burst Extended Data Output Dynamic Random Access Memory (Burst EDO or BEDO DRAM). Input addresses in combination with a sequence select signal are logically combined to produce a multiplexer select input which selects between true and compliment outputs of a first flip flop to couple to an input of a second flip flop to specify a toggle condition for the second flip flop. Outputs of the counter are compared with outputs of an input address latch to detect the end of a burst sequence and initialize the device for another burst access. A transition of the Read/Write control line during a burst access will terminate the burst access and initialize the device for another burst access.

Abstract: A memory circuit is described which increases the density of memory cells by including a reference circuit. The memory circuit has an open digit line architecture where sense amplifiers use two digit lines to sense data stored in the memory cells. One of the digit lines is used as a reference while the other digit line is active. A reference circuit is described which can be used to replace one of the digit lines connected to the sense amplifier circuit. The reference circuit models the electrical characteristics of a digit line by including a capacitor and a transistor, each sized to match the characteristics of a digit line.

Abstract: In an integrated circuit having addressable primary elements and redundant elements which can be programmed to replace primary elements, a circuit and method are provided for cancelling and replacing redundant elements. A circuit is described which can be used in a memory such as a dynamic random access memory (DRAM) which uses a selectively blowable anti-fuse to disable a redundant element which was previously programmed to replace a defective primary element. The disclosure describes a method for permanently cancelling the defective redundant element and replacing the defective redundant element with another redundant element.

Abstract: The invention is a circuit and method for quickly driving non-selected wordlines to correct potentials. The invention drives the non-selected wordlines to low potentials through a driving device directly gated by a primary select predecode signal generated by decode circuitry. The driving device is electrically interposed between the wordline and a reference node. The invention provides low power operation, and provides reliable wordline selection for circuits having supply potentials less than 5 volts.

Abstract: There is a zero power programmable logic device with a one time programmable and fully-testable anti-fuse cell architecture. Specifically, a half-latch and fuse cell circuit allows the PLD to use "zero power" during the standby period since the sense amps are not used to maintain the programmed logic. Additionally, the PLD is capable of being tested for logic gate and logic path integrity, and anti-fuse electrical parameters without permanently programming the anti-fuse.