Patent application number | Description | Published |
20090144504 | STRUCTURE FOR IMPLEMENTING REFRESHLESS SINGLE TRANSISTOR CELL eDRAM FOR HIGH PERFORMANCE MEMORY APPLICATIONS - A design structure embodied in a machine readable medium used in a design process includes a cache structure having a cache tag array associated with a eDRAM data cache comprising a plurality of cache lines, the cache tag array having an address tag, a valid bit and an access bit corresponding to each of the plurality of cache lines; and each access bit configured to indicate whether the corresponding cache line has been accessed as a result of a read or a write operation during a defined assessment period, which is smaller than retention time of data in the DRAM data cache; wherein, for any of the cache lines not accessed as a result of a read or a write operation during the defined assessment period, the individual valid bit associated therewith is set to a logic state that indicates the data in the associated cache line is invalid. | 06-04-2009 |
20090144507 | APPARATUS AND METHOD FOR IMPLEMENTING REFRESHLESS SINGLE TRANSISTOR CELL eDRAM FOR HIGH PERFORMANCE MEMORY APPLICATIONS - An apparatus for implementing a refreshless, embedded dynamic random access memory (eDRAM) cache device includes a cache structure having a cache tag array associated with a DRAM data cache with a plurality of cache lines, the cache tag array having an address tag, a valid bit and an access bit corresponding to each of the plurality of cache lines; and each access bit configured to indicate whether the corresponding cache line has been accessed as a result of a read or a write operation during a defined assessment period, the defined assessment period being smaller than retention time of data in the DRAM data cache. For any of the cache lines that have not been accessed during the defined assessment period, the individual valid bit associated therewith is set to a logic state that indicates the data in the associated cache line is invalid. | 06-04-2009 |
20110090750 | SRAM DELAY CIRCUIT THAT TRACKS BITCELL CHARACTERISTICS - An SRAM delay circuit that tracks bitcell characteristics. A circuit is disclosed that includes an input node for receiving an input signal; a reference node for capturing a reference current from a plurality of reference cells; a capacitance network having a discharge that is controlled by the reference current; and an output circuit that outputs the input signal with a delay, wherein the delay is controlled by the discharge of the capacitance network. | 04-21-2011 |
20120075918 | SRAM Having Wordline Up-Level Voltage Adjustable to Assist Bitcell Stability and Design Structure for Same - An integrated circuit that includes memory containing wordlines and bitcells having SRAM storage elements and being connected to the wordlines. Wordline up-level assist circuitry is provided that is designed and configured to provide a plurality of selectable voltage values that can be selected to provide the wordline up-level voltage that is provided to the bitcells during a memory read cycle and/or write cycle. In one example, the voltage value selected is selected based on characterization of the as-fabricated bitcells so as to decrease the likelihood of the bitcells experiencing a stability failure. | 03-29-2012 |
20120075919 | Methods and Systems for Adjusting Wordline Up-Level Voltage to Improve Production Yield Relative to SRAM-Cell Stability - Methods of setting wordline up-level voltage in as-fabricated SRAM. In one example, the method includes determining the relative speed, or strength, of 1) the combination of the pass-gate and pull-down devices and 2) the pull-up devices in the bitcells of the SRAM. These relative strengths are then used to adjust the wordline up-level voltage, if needed, to decrease the likelihood of the SRAM experiencing a stability failure. Corresponding systems are provided for determining the relative strengths of the devices of interest, for determining the amount of up-level voltage adjustment needed, and for selecting and setting the up-level voltage. | 03-29-2012 |
20130148455 | FINE GRANULARITY POWER GATING - An approach for providing fine granularity power gating of a memory array is described. In one embodiment, power supply lines are disposed in a horizontal dimension of the memory array parallel to the word lines that access cells arranged in rows and columns of the array, wherein each of the supply lines are shared by adjacent cells in the memory. Power supply lines that activate a row selected by one of the word lines are supplied a full-power voltage value and power supply lines that activate rows adjacent to the selected row are supplied a half-power voltage value, while the power supply lines of the remaining rows in the memory array are supplied a power-gated voltage value. | 06-13-2013 |
20130234754 | MAJORITY DOMINANT POWER SCHEME FOR REPEATED STRUCTURES AND STRUCTURES THEREOF - Methods and structures for configuring an integrated circuit including repeated cells that are divided into banks having a respective power assist and a respective operational assist are provided. A method includes configuring the banks without power assist and operational assist. The method further includes selecting the power assist for a bank based on a determination that a weak cell remains in the bank after configuring the bank with the respective operational assist. | 09-12-2013 |
20130307580 | MAJORITY DOMINANT POWER SCHEME FOR REPEATED STRUCTURES AND STRUCTURES THEREOF - Methods and structures for configuring an integrated circuit including repeated cells that are divided into banks having a respective power assist and a respective operational assist are provided. A method includes configuring the banks without power assist and operational assist. The method further includes selecting the power assist for a bank based on a determination that a weak cell remains in the bank after configuring the bank with the respective operational assist. | 11-21-2013 |
20150025857 | STATISTICAL POWER ESTIMATION - A method for predicting the power consumption of a semiconductor chip is provided. A plurality of statistical distributions characterizing a plurality of power contributing parameters for a plurality of power consuming units included in the semiconductor chip is received. A statistical distribution characterizing the power consumption is determined based on the received plurality of statistical distributions and based on the correlation between the plurality of power contributing parameters. | 01-22-2015 |