Patent application number | Description | Published |
20140112061 | WRITE WORD-LINE ASSIST CIRCUITRY FOR A BYTE-WRITEABLE MEMORY - A write-assisted memory. The write-assisted memory includes a word-line decoder that is implemented within a low VDD power domain. The write-assisted memory also includes a write-segment controller that is partially implemented within the low VDD power domain and is partially implemented within a high VDD power domain. The write-assisted memory further includes a local write word-line decoder that is implemented within the high VDD power domain. | 04-24-2014 |
20140177310 | PSEUDO-NOR CELL FOR TERNARY CONTENT ADDRESSABLE MEMORY - A method within a ternary content addressable memory (TCAM) includes receiving a match line output from a previous TCAM stage at a gate of a pull-up transistor of a current TCAM stage and at a gate of a pull-down transistor of the current TCAM stage. The method sets a match line bar at the current TCAM stage to a low value, via the pull-down transistor, when the match line output from the previous TCAM stage indicates a mismatch. The method also sets the match line bar at the current TCAM stage to a high value, via the pull-up transistor, when the match line output from the previous TCAM stage indicates a match. | 06-26-2014 |
20140185348 | HYBRID TERNARY CONTENT ADDRESSABLE MEMORY - A method within a hybrid ternary content addressable memory (TCAM) includes comparing a first portion of a search word to a first portion of a stored word in a first TCAM stage. The method further includes interfacing an output of the first TCAM stage to an input of the second TCAM stage. The method also includes comparing a second portion of the search word to a second portion of the stored word in a second TCAM stage when the first portion of the search word matches the first portion of the stored word. The first TCAM stage is different from the second TCAM stage. | 07-03-2014 |
20140185349 | STATIC NAND CELL FOR TERNARY CONTENT ADDRESSABLE MEMORY (TCAM) - A static, ternary content addressable memory (TCAM) includes a key cell and a mask cell coupled to intermediate match lines. The key cell is coupled to a first pull-down transistor and a first pull-up transistor. The mask cell is coupled to a second pull-down transistor and a second pull-up transistor. The first pull-down transistor and second pull-down transistor are connected in parallel and the first pull-up transistor and second pull-up transistor are connected in series. A match line output is also coupled to the first pull-down transistor and second pull-down transistor and further coupled to the first pull-up transistor and second pull-up transistor. | 07-03-2014 |
20140219039 | WRITE DRIVER FOR WRITE ASSISTANCE IN MEMORY DEVICE - A write assist driver circuit is provided that assists a memory cell (e.g., volatile memory bit cell) in write operations to keep the voltage at the memory core sufficiently high for correct write operations, even when the supply voltage is lowered. The write assist driver circuit may be configured to provide a memory supply voltage VddM to a bit cell core during a standby mode of operation. In a write mode of operation, the write assist driver circuit may provide a lowered memory supply voltage VddM | 08-07-2014 |
20140253201 | PULSE GENERATION IN DUAL SUPPLY SYSTEMS - Various apparatuses and methods are disclosed. The system describes a pulse generator comprising a first stage configured to be powered by a first voltage; and a second stage configured to be powered by a second voltage different from the first voltage, wherein the second stage is further configured to generate a pulse in response to an input to the first stage comprising a trigger and feedback from the second stage. | 09-11-2014 |
20140254293 | HIGH-SPEED MEMORY WRITE DRIVER CIRCUIT WITH VOLTAGE LEVEL SHIFTING FEATURES - Various aspects of a fast, energy efficient write driver capable of efficient operation in a dual-voltage domain memory architecture are provided herein. Specifically, various aspects of the write driver described herein combine a high speed driver with voltage level shifting capabilities that may be implemented efficiently in reducing use of silicon area while using lower power. The write driver circuit shifts or adjusts voltage levels between a first voltage domain to a second voltage domain. In one example, the write driver circuit is coupled to a global write bitline and a local write bitline that is coupled to one or more bitcells (of SRAM memory). The write driver circuit converts a first voltage level at the global write bitline to a second voltage level at the local write bitline during a write operation. | 09-11-2014 |
20140269112 | APPARATUS AND METHOD FOR WRITING DATA TO MEMORY ARRAY CIRCUITS - A write driver for a memory circuit includes a control circuit configured to: operate a first push-pull driver to generate a first drive signal in a first voltage domain at a first node based on an input signal in a second domain and in response to a mode select signal being in a first mode, wherein the first drive signal is at a same logic level as the input signal; operate a second push-pull driver to generate a second drive signal in the first voltage domain at a second node based on the input signal and in response to the mode select signal being in the first mode, wherein the second drive signal is at a complement logic level with respect to the input signal; and operate the first and second push-pull drivers to float the first and second nodes in response to the mode select signal being in a second mode. | 09-18-2014 |
20140355365 | PULSE GENERATOR - Various circuits and methods of operating circuits are disclosed. A circuit may include a pulse generator and a latch having an output configured to trigger the pulse generator, wherein the latch is configured to be set by an input signal and reset by feedback from the pulse generator. A method may include resetting a latch using feedback from a pulse generator by setting a latch using an input signal, triggering a pulse generator using an output from the latch, and resetting the latch using feedback from the pulse generator. | 12-04-2014 |
20150029782 | WIDE RANGE MULTIPORT BITCELL - A multiport bitcell including a pair of cross-coupled inverters is provided with increased write speed and enhanced operating voltage range by the selective isolation of a first one of the cross-coupled inverters from a power supply and ground during a write operation. The write operation occurs through a write port that includes a transmission gate configured to couple a first node driven by the first cross-coupled inverter to a write bit line. A remaining second cross-coupled inverter in the bitcell is configured to drive a second node that couples to a plurality of read ports. | 01-29-2015 |
20150085554 | STATIC NAND CELL FOR TERNARY CONTENT ADDRESSABLE MEMORY (TCAM) - A static, ternary content addressable memory (TCAM) includes a key cell and a mask cell coupled to intermediate match lines. The key cell is coupled to a first pull-down transistor and a first pull-up transistor. The mask cell is coupled to a second pull-down transistor and a second pull-up transistor. The first pull-down transistor and second pull-down transistor are connected in parallel and the first pull-up transistor and second pull-up transistor are connected in series. A match line output is also coupled to the first pull-down transistor and second pull-down transistor and further coupled to the first pull-up transistor and second pull-up transistor. | 03-26-2015 |