Patent application number | Description | Published |
20110292754 | MEMORY WORD-LINE DRIVER HAVING REDUCED POWER CONSUMPTION - A word-line driving circuit for driving a word-line in a memory array includes a NAND circuit having a pair of address inputs and an output, an output inverter circuit having an inverter power supply node, an input coupled to the output of the NAND circuit and an output for providing a word line signal, a power gate coupled between a first power supply node and the inverter power supply node, and a control circuit coupled to the power gate. The control circuit controls the power gate to place the word line driver circuit in active or standby mode in response to the output of the NAND circuit. | 12-01-2011 |
20120110530 | COMPUTER SYSTEM AND METHOD OF PREPARING A LAYOUT - The present application discloses a method of preparing a layout for manufacturing an integrated circuit chip according to a circuit design. In at least one embodiment, a pattern for the layout based on the circuit design is generated. After the generation of the pattern, it is determined if at least one layout rule is violated in the layout, the at least one layout rule being specified according to a predetermined maximum value for at least one of an estimated voltage drop along a signal path in the layout or an estimated current density on the signal path. If the at least one layout rule is violated, a violation is indicated. | 05-03-2012 |
20120236675 | Methods and Apparatus for Memory Word Line Driver - A word line driver circuit and corresponding methods are disclosed. An apparatus, comprising a decoder circuit coupled to receive address inputs, and having a decoder output; and a word line clock gating circuit coupled to the decoder output and to a word line clock signal, configured to selectively output a word line signal responsive to an edge on the word line clock signal; wherein the address inputs have a set up time requirement relative to the edge of the word line clock signal, and the address inputs have a zero or less hold time requirement relative to the edge of the word line clock signal. Methods for providing a word line signal from a word line driver are disclosed. | 09-20-2012 |
20130094308 | NEGATIVE WORD LINE DRIVER FOR SEMICONDUCTOR MEMORIES - A semiconductor memory includes a word line driver and a negative voltage generator. The word line driver includes a first inverter configured to drive a word line at one of a first voltage supplied by a first voltage source and a second voltage supplied by a second voltage source. The negative voltage generator is configured to provide a negative voltage with respect to the second voltage to an input of the first inverter in response to a control signal for performing at least one of a read or a write operation of a memory bit cell coupled to the word line. | 04-18-2013 |
20130329505 | Far End Resistance Tracking Design with Near End Pre-Charge Control for Faster Recovery Time - A wordline tracking circuit and corresponding method are disclosed, and include a tracking wordline having an impedance characteristic associated therewith that models a row of memory cells in a memory device, wherein the tracking wordline row has a near end that receives a wordline pulse signal having a near end rising pulse edge and a near end falling pulse edge. The tracking wordline also has a far end. A tracking cell component is coupled to the far end of the tracking wordline that receives the wordline pulse signal. Lastly, the circuit includes a tracking bitline pre-charge circuit coupled to the tracking cell that is configured to pre-charge a tracking bitline associated with the tracking cell using the near end wordline pulse signal. | 12-12-2013 |
20140092695 | HEADER CIRCUIT FOR CONTROLLING SUPPLY VOLTAGE OF A CELL - One or more techniques or systems for controlling a supply voltage of a cell are provided herein. Additionally, one or more techniques or systems for mitigating leakage of the cell are provided. In some embodiments, a header circuit is provided, including a first pull-up p-type metal-oxide-semiconductor (PMOS) transistor including a first gate, a first source, and a first drain. Additionally, the header circuit includes a second pull-down PMOS transistor including a second gate, a second source, and a second drain. In some embodiments, the first drain of the first pull-up PMOS transistor is connected to the second source of the second pull-down PMOS transistor and a supply voltage line for one or more cells. In this manner, a pull-down PMOS is configured to control the supply voltage of the cell, thus facilitating voltage control for a write assist, for example. | 04-03-2014 |
20140269115 | Integrated Write Mux and Driver Systems and Methods - An integrated driver system is disclosed. The driver system includes decoding logic and a driver portion. The decoding logic is configured to receive select signals and data signals. The driver portion is configured to generate driver signals according to the decoded signals. | 09-18-2014 |
20140269141 | WORDLINE DOUBLER - A memory includes a clock generator for providing a first clock signal responsive to a second clock signal and a feedback signal. A feedback loop provides the feedback signal and includes a tracking wordline, a tracking bitline, a tracking bit cell, and a tracking wordline driver for driving the tracking wordline responsive to the first clock signal. The memory includes a tracking wordline level tuner for reducing a voltage level of a tracking wordline signal on the tracking wordline responsive to a weak bit control signal. | 09-18-2014 |
20140307502 | Far End Resistance Tracking Design with Near End Pre-Charge Control for Faster Recovery Time - A wordline tracking circuit and corresponding method are disclosed, and include a tracking wordline having an impedance characteristic associated therewith that models a row of memory cells in a memory device, wherein the tracking wordline row has a near end that receives a wordline pulse signal having a near end rising pulse edge and a near end falling pulse edge. The tracking wordline also has a far end. A tracking cell component is coupled to the far end of the tracking wordline that receives the wordline pulse signal. Lastly, the circuit includes a tracking bitline pre-charge circuit coupled to the tracking cell that is configured to pre-charge a tracking bitline associated with the tracking cell using the near end wordline pulse signal. | 10-16-2014 |