Patent application number | Description | Published |
20080231322 | Circuit Device and Method of Controlling a Voltage Swing - In particular illustrative embodiments, circuit devices and methods of controlling a voltage swing are disclosed. The method includes receiving a signal at an input of a digital circuit device including a capacitive node. The method also includes selectively activating a voltage level adjustment element to regulate an electrical discharge path from the capacitive node to an electrical ground to prevent complete discharge of the capacitive node. In a particular illustrative embodiment, the received signal may be a clock signal. | 09-25-2008 |
20090039867 | Circuit Device and Method of Measuring Clock Jitter - In an embodiment, a method is disclosed that includes receiving a clock signal at a delay chain of a circuit device and determining a value of the clock signal at a selected point within the delay chain. The method also includes adjusting the selected point when the value does not indicate detection of an edge of the clock signal. | 02-12-2009 |
20090058463 | Sequential Circuit Element Including A Single Clocked Transistor - A method is disclosed that includes propagating data via a first data path of a sequential circuit element in response to a clock signal received at a single clocked transistor of the sequential circuit element. The method also includes retaining information related to the data propagated via the first path at a retention circuit element of a second data path, where the first data path includes a first transistor that is responsive to an output of the single clocked transistor. The first transistor has a higher current flow capacity than a second transistor associated with the second data path. | 03-05-2009 |
20090108895 | Latch Structure and Self-Adjusting Pulse Generator Using the Latch - The disclosure includes a latch structure and self-adjusting pulse generator using the latch. In an embodiment, the system includes a first latch and a pulse generator coupled to provide a timing signal to the first latch. The pulse generator includes a second latch that has characteristics matching the first latch. | 04-30-2009 |
20090210728 | Circuits and Methods for Sleep State Leakage Current Reduction - A circuit for reducing sleep state current leakage is described. The circuit includes a hardware unit selected from at least one of a latch, a flip-flop, a comparator, a multiplexer, or an adder. The hardware unit includes a first node. The hardware unit further includes a sleep enabled combinational logic coupled to the first node, wherein a value of the first node is preserved during a sleep state. | 08-20-2009 |
20090267649 | Clock Gating System and Method - A clock gating system and method is disclosed. In a particular embodiment, the system includes an input logic circuit having at least one input to receive at least one input signal and having an output at an internal enable node. A keeper circuit includes at least one switching element that is responsive to a gated clock signal and is coupled to the internal enable node to selectively hold a logical voltage level at the internal enable node. The system further includes a gating element responsive to an input clock signal and to the logical voltage level at the internal enable node to generate the gated clock signal. | 10-29-2009 |
20100109747 | Systems and Methods Using Improved Clock Gating Cells - A clock gating cell that comprises a latch in communication with an input enable logic and an output logic circuit, wherein the latch includes a pull-up and/or a pull-down circuit at an input node of the output logic circuit and circuitry preventing premature charge or discharge of the output logic circuit input node by the pull-up and/or the pull-down circuit when the clock gating cell is enabled. | 05-06-2010 |
20110138393 | Thread Allocation and Clock Cycle Adjustment in an Interleaved Multi-Threaded Processor - Methods, apparatuses, and computer-readable storage media are disclosed for reducing power by reducing hardware-thread toggling in a multi-threaded processor. In a particular embodiment, a method allocates software threads to hardware threads. A number of software threads to be allocated is identified. It is determined when the number of software threads is less than a number of hardware threads. When the number of software threads is less than the number of hardware threads, at least two of the software threads are allocated to non-sequential hardware threads. A clock signal to be applied to the hardware threads is adjusted responsive to the non-sequential hardware threads allocated. | 06-09-2011 |
20130039133 | Data Storage for Voltage Domain Crossings - According to an embodiment, an apparatus includes a data storage device. Data to be stored in the data storage device is level shifted from a first voltage domain to a second voltage domain prior to being stored within the data storage device. The data storage device is powered by the second voltage domain. The apparatus further includes a circuit that is powered by the second voltage domain and that is responsive to data output by the data storage device. | 02-14-2013 |
20130076424 | SYSTEM AND METHOD FOR REDUCING CROSS COUPLING EFFECTS - A device includes a plurality of driver circuits coupled to a plurality of bus lines. A first driver circuit of the plurality of driver circuits is coupled to a first bus line of the plurality of bus lines. The first driver circuit includes one of a skewed inverter, a level shifter, a latch, and a sense amplifier configured to produce an output signal that transitions after a first delay in response to a first digital value transition of an input signal from high to low and transitions after a second delay in response to a second digital value transition of the input signal from low to high. The first delay is different from the second delay by an amount sufficient to reduce power related to transmission of signals over the first bus line and over a second bus line in close physical proximity to the first bus line. | 03-28-2013 |
20130113530 | Oscillator Based Frequency Locked Loop - A method includes determining a control setting and selectively stopping oscillation of an oscillator after a time period. The oscillator is configured to remain in an active mode after the time period. The method further includes applying the control setting to the oscillator. | 05-09-2013 |
20140237275 | Multiple Critical Paths Having Different Threshold Voltages in a Single Processor Core - A processor having a multi-Vt critical path is provided that includes both low-Vt devices and high-Vt devices. If the processor is operating in a high performance mode, the multi-Vt critical path is controlled so as to use the low-Vt devices. Conversely, if the processor is operating in a low power mode, the multi-Vt critical path is controlled so as to use the high-Vt devices. In this fashion, the complication of multiple processing cores is avoided in that a single processor core can operate in both the high performance mode and in the low power mode. | 08-21-2014 |
20140306735 | FLIP-FLOP WITH REDUCED RETENTION VOLTAGE - A circuit including a logic gate responsive to a clock signal and to a control signal. The circuit also includes a master stage of a flip-flop. The circuit further includes a slave stage of the flip-flop responsive to the master stage. The circuit further includes an inverter responsive to the logic gate and configured to output a delayed version of the clock signal. An output of the logic gate and the delayed version of the clock signal are provided to the master stage and to the slave stage of the flip-flop. The master stage is responsive to the control signal to control the slave stage. | 10-16-2014 |
20140354338 | LENGTH-OF-DIFFUSION PROTECTED CIRCUIT AND METHOD OF DESIGN - A circuit includes a pulsed-latch circuit. The pulsed-latch circuit includes a first plurality of transistors. One or more of the first plurality of transistors is length-of-diffusion (LOD) protected. | 12-04-2014 |