Patent application number | Description | Published |
20080225630 | Method and apparatus for initialization of read latency tracking circuit in high-speed DRAM - A method of synchronizing counters in two different clock domains within a memory device is comprised of generating a start signal for initiating production of a running count of clock pulses of a read clock signal in a first counter downstream of a locked loop and delaying the input of the start signal to a second counter upstream of the locked loop to delay the initiation of a running count of control clock pulses by an amount equal to a predetermined delay. Another disclosed method is for controlling the output of data from a memory device comprising deriving from an external clock signal a control clock for operating an array of storage cells and a read clock, both the control clock and the read clock being comprised of clock pulses. A start signal is generated for initiating production of a running count of the read clock pulses in a first counter. The start signal may be produced when a locked loop achieves a lock between the read clock and the control clock. The input of the start signal to a second counter is delayed to delay the initiation of a running count of the control clock pulses. The delay, which may be expressed as an integer number of clock cycles, may be equal to an input/output delay of the memory device. The method may be modified by inputting the start signal to an offset counter before initiating the production of the running count of the read clock pulses in the first counter. The offset counter may be loaded with a value equal to a programmed latency less a synchronization overhead. Once the running counts are initiated, each time a read command is received, a then current value of the running count of control clock pulses from the second counter is latched or held. The held value is compared to the running count of read clock pulses from the first counter, with the read clock signal being used to output data in response to the comparison. Apparatus for implementing the disclosed methods are also disclosed. Because of the rules governing abstracts, this abstract should not be used to construe the claims. | 09-18-2008 |
20090141571 | Method and Apparatus for Initialization of Read Latency Tracking Circuit in High-Speed DRAM - A method of controlling the output of data from a memory device includes deriving from an external clock signal a read clock and a control clock for operating an array of storage cells, both the read clock and the control clock each being comprised of clock pulses. A value is preloaded into one or both of a first counter located in the read clock domain and a second counter located in the control clock domain such that the difference in starting counts between the two counters is equal to a column address strobe latency (L) minus a synchronization (SP) overhead. A start signal is generated for initiating production of a running count of the read clock pulses in the first counter. The input of the start signal to the second counter is delayed so as to delay the initiation of a running count of the control clock pulses. A value of the second counter is held in response to a read command. The held value of the second counter is compared to a running count of the first counter; and data is output from the memory device with the read clock signal in response to the comparing. | 06-04-2009 |
20090158111 | SELF-TIMED ERROR CORRECTING CODE EVALUATION SYSTEM AND METHOD - Error correcting codes (ECCs) have been proposed to be used in high frequency memory devices to detect errors in signals transmitted between a memory controller and a memory device. For high frequency memory devices, ECCs have delay characteristics of greater than one clock cycle. When the delay exceeds one clock cycle but is much less than two clock cycles, an entire second clock cycle must be added. By calculating and comparing the ECC value in a static logic circuit and a dynamic logic circuit, the logic delay is substantially reduced. In addition, the ECC value may be calculated and compared using two sets of static logic gates, where the second static logic gate is clocked by a clock signal that is delayed relative to the clock signal of the first set of logic gates. | 06-18-2009 |
20090213663 | Circuits, devices, systems, and methods of operation for capturing data signals - Embodiments of the invention are described for driving data onto a data bus. The embodiments include a data driver circuit having a data capture circuit coupled to the data bus. The data capture circuit receives a data signal relative to a write strobe signal and captures a first data digit of the data signal responsive to a first edge of the write strobe signal and at least a second data digit responsive to a second edge of the write strobe signal. The data driver circuit includes a feedback capture circuit that captures each of the data digits of the data signal in substantially the same manner as the data capture circuit, and also generates a latch control signal indicative of when each data bits is latched. The latch control signal is provided to a write control circuit coupled to the feedback capture circuit and the data capture circuit. The write control circuit determines which of the data digits was latched first relative to an external timing, and generate a select control signal to drive the captured data digits onto the data bus in the order in which the data digits were received. | 08-27-2009 |
20090323441 | Write Latency Tracking Using a Delay Lock Loop in a Synchronous DRAM - A method and circuitry for improved write latency tracking in a SDRAM is disclosed. In one embodiment, a delay locked loop is used in the command portion of the write path, and receives the system clock as its reference input. The DLL includes a modeled delay which models the delay in transmission of the internal Write Valid signal and system clock distribution to the deserializers in the data path portion of the write path, which is otherwise controlled by the intermittently asserted write strobe signal. With the input distribution delay of the system clock (Clk) and the write strobe (WS) matched by design, the distributed system clock and Write Valid signal are synchronized to the WS distribution path by means of the DLL delay with reference to the system clock input to the DLL. By backing the distribution delay out of system clock as sent to the deserializers, the write valid signal is effectively synchronized with the write strobe, with the effect that data will be passed out of the deserializer circuitry to the memory array on time and consistent with the programmed write latency. | 12-31-2009 |
20100131684 | SHARING RESOURCES IN MULTI-DICE STACKS - Apparatus, systems, and methods for configuring a plurality of stacked semiconductor dice with unique identifiers and identifying a die in the stack using the unique identifier are provided. Additional apparatus and methods are disclosed. | 05-27-2010 |
20100188906 | STROBE APPARATUS, SYSTEMS, AND METHODS - A strobe signal is received in a device and execution of an operation in the device is delayed when the strobe signal includes a preamble. Additional apparatus, systems, and methods are disclosed. | 07-29-2010 |
20100315885 | CIRCUITS, DEVICES, SYSTEMS, AND METHODS OF OPERATION FOR CAPTURING DATA SIGNALS - Embodiments of the invention are described for driving data onto a data bus. The embodiments include a data driver circuit having a data capture circuit coupled to the data bus. The data capture circuit receives a data signal relative to a write strobe signal and captures a first data digit of the data signal responsive to a first edge of the write strobe signal and at least a second data digit responsive to a second edge of the write strobe signal. The data driver circuit includes a feedback capture circuit that captures each of the data digits of the data signal in substantially the same manner as the data capture circuit, and also generates a latch control signal indicative of when each data bits is latched. The latch control signal is provided to a write control circuit coupled to the feedback capture circuit and the data capture circuit. The write control circuit determines which of the data digits was latched first relative to an external timing, and generate a select control signal to drive the captured data digits onto the data bus in the order in which the data digits were received. | 12-16-2010 |
20120188829 | CIRCUITS, DEVICES, SYSTEMS, AND METHODS OF OPERATION FOR CAPTURING DATA SIGNALS - Embodiments of the invention describe driving data onto a bus. The embodiments include a data driver circuit having a data capture circuit coupled to the bus. The data capture circuit receives data relative to a write strobe signal and captures a first digit of the data responsive to a first edge of the write strobe signal and at least a second digit responsive to a second edge of the write strobe signal. The data driver circuit includes a feedback capture circuit that captures each digit in substantially the same manner as the data capture circuit, and generates a latch control signal indicative of when each digit is latched. The latch control signal is provided to a write control circuit that determines which digit was latched first relative to a timing, and generates a select control signal to drive captured digits onto the bus in the order the digits were received. | 07-26-2012 |
20120213012 | STROBE APPARATUS, SYSTEMS, AND METHODS - A strobe signal is received in a device and execution of an operation in the device is delayed when the strobe signal includes a preamble. Additional apparatus, systems, and methods are disclosed. | 08-23-2012 |
20130016571 | CIRCUITS, DEVICES, SYSTEMS, AND METHODS OF OPERATION FOR CAPTURING DATA SIGNALS - Embodiments of the invention describe driving data onto a bus. The embodiments include a data driver circuit having a data capture circuit coupled to the bus. The data capture circuit receives data relative to a write strobe signal and captures a first digit of the data responsive to a first edge of the write strobe signal and at least a second digit responsive to a second edge of the write strobe signal. The data driver circuit includes a feedback capture circuit that captures each digit in substantially the same manner as the data capture circuit, and generates a latch control signal indicative of when each digit is latched. The latch control signal is provided to a write control circuit that determines which digit was latched first relative to a timing, and generates a select control signal to drive captured digits onto the bus in the order the digits were received. | 01-17-2013 |
20140204685 | CIRCUITS, DEVICES, SYSTEMS, AND METHODS OF OPERATION FOR CAPTURING DATA SIGNALS - Embodiments of the invention describe driving data onto a bus. The embodiments include a data driver circuit having a data capture circuit coupled to the bus. The data capture circuit receives data relative to a write strobe signal and captures a first digit of the data responsive to a first edge of the write strobe signal and at least a second digit responsive to a second edge of the write strobe signal. The data driver circuit includes a feedback capture circuit that captures each digit in substantially the same manner as the data capture circuit, and generates a latch control signal indicative of when each digit is latched. The latch control signal is provided to a write control circuit that determines which digit was latched first relative to a timing, and generates a select control signal to drive captured digits onto the bus in the order the digits were received. | 07-24-2014 |