Patent application number | Description | Published |
20090129195 | BALANCED AND BI-DIRECTIONAL BIT LINE PATHS FOR MEMORY ARRAYS WITH PROGRAMMABLE MEMORY CELLS - Disclosed is a design structure of an improved large scale memory system and, more particularly, an improved memory system that incorporates an array of memory cells that are subjected to minimal location dependent power variations and that, optionally, allows for bi-directional random access of millions of bits. Specifically, the system architecture provides a consistent amount of bit line resistance in the write and read paths to each memory cell in the array, independent of position, in order to minimize variations in power delivery to the cells and, thereby, allow for optimal cell distributions. The system architecture further allows current to pass in either direction through the cells in order to minimize element electro-migration and, thereby, extend memory cell life. | 05-21-2009 |
20090273968 | METHOD AND APPARATUS FOR IMPLEMENTING SELF-REFERENCING READ OPERATION FOR PCRAM DEVICES - A method of implementing a self-referencing read operation for a PCRAM array includes applying a stimulus to a bit line associated with a selected phase change element (PCE) to be read; comparing a first voltage on a node of the bit line with a second voltage on a delay node, wherein the second voltage represents a delayed voltage with respect to the first voltage due to a resistance/capacitance time constant associated therewith; and determining whether, during the read operation, the first voltage drops below the value of the second voltage; wherein in the event the first voltage drops below the value of the second voltage during the read operation, the PCE is determined to be programmed to an amorphous state and in the event the first voltage does not drop below the value of the second voltage, the PCE is determined to be programmed to a crystalline state. | 11-05-2009 |
20120057401 | PHASE CHANGE MEMORY CYCLE TIMER AND METHOD - A phase change memory (PCM) cycle timer and associated method are disclosed. A system includes at least one reference phase change element (PCE). The system also includes a circuit that performs a write operation on the at least one reference PCE and substantially immediately thereafter continuously senses and returns a value of a resistance of the at least one reference PCE throughout a settling time of the at least one reference PCE. | 03-08-2012 |
20120266115 | PHASE CHANGE MEMORY CYCLE TIMER AND METHOD - A phase change memory (PCM) cycle timer and associated method are disclosed. A system includes at least one reference phase change element (PCE). The system also includes a circuit that performs a write operation on the at least one reference PCE and substantially immediately thereafter continuously senses and returns a value of a resistance of the at least one reference PCE throughout a settling time of the at least one reference PCE. | 10-18-2012 |
20130099391 | CHAMFERED CORNER CRACKSTOP FOR AN INTEGRATED CIRCUIT CHIP - A corner crackstop is formed in each of the four corners of an integrated circuit (IC) chip, in which the corner crackstop differs structurally from a portion of the crackstop disposed along the sides of the IC chip. Each corner crackstop includes a plurality of layers, formed on a top surface of a silicon layer of the IC chip, within a perimeter boundary region that comprises a triangular area, in which a right angle is disposed on a bisector of the corner, equilateral sides of the triangle are parallel to sides of the IC chip, and the right angle is proximate to the corner relative to a hypotenuse of the triangle. The plurality of layers of the corner crackstop include crackstop elements, each comprising a metal cap centered over a via bar, in which the plurality of layers of the corner crackstop is chamfered to deflect crack ingress forces by each corner crackstop. | 04-25-2013 |
20140376149 | PHASE CHANGE MATERIAL VARIABLE CAPACITOR - A method of manufacturing a variable capacitor includes forming a capacitor conductor. The method also includes forming a phase change material adjacent the capacitor conductor. The method further includes forming a first contact on the capacitor conductor. The method additionally includes forming a second contact and a third contact on the phase change material. | 12-25-2014 |
20150091131 | POWER DISTRIBUTION FOR 3D SEMICONDUCTOR PACKAGE - A method including a printed circuit board electrically coupled to a bottom of a laminate substrate, the laminate substrate having an opening extending through the entire thickness of the laminate substrate, a main die electrically coupled to a top of the laminate substrate, a die stack electrically coupled to a bottom of the main die, the die stack including one or more chips stacked vertically and electrically coupled to one another, the die stack extending into the opening of the laminate substrate, and an interposer positioned between and electrically coupled to a topmost chip and the printed circuit board, the interposer providing an electrical path from the printed circuit board to the topmost chip of the die stack. | 04-02-2015 |
20150255405 | CHAMFERED CORNER CRACKSTOP FOR AN INTEGRATED CIRCUIT CHIP - A corner crackstop is formed in each of the four corners of an integrated circuit (IC) chip, in which the corner crackstop differs structurally from a portion of the crackstop disposed along the sides of the IC chip. Each corner crackstop includes a plurality of layers, formed on a top surface of a silicon layer of the IC chip, within a perimeter boundary region that comprises a triangular area, in which a right angle is disposed on a bisector of the corner, equilateral sides of the triangle are parallel to sides of the IC chip, and the right angle is proximate to the corner relative to a hypotenuse of the triangle. The plurality of layers of the corner crackstop include crackstop elements, each comprising a metal cap centered over a via bar, in which the plurality of layers of the corner crackstop is chamfered to deflect crack ingress forces by each corner crackstop. | 09-10-2015 |