Patent application number | Description | Published |
20120187998 | MULTIPLE FUNCTION POWER DOMAIN LEVEL SHIFTER - A level shifter including input and output power nodes, input and output reference nodes, input and output signal nodes, and a lever shifter network. The input power and input reference nodes operate within a first power domain and the output power and output reference nodes operate within a second power domain. The level shifter network receives an input signal operable within the first power domain, performs voltage shifting between the input and output power nodes and between the input and output reference nodes, and provides an output signal output signal indicative of the input signal that operates within the second power domain. The level shifter may include power and/or ground bypass such that either one or both of power and ground voltage shifting may be bypassed for faster switching. The level shifter may include an isolation input to assert the output to a known level. | 07-26-2012 |
20130314138 | STATE RETENTION SUPPLY VOLTAGE DISTRIBUTION USING CLOCK NETWORK SHIELDING - An integrated circuit including a state retention node, a conductive clock network shielding and multiple state retention devices for maintaining a state of the integrated circuit during the low power state. The state retention node receives a state retention supply voltage which remains at an operative voltage level during a low power state. The conductive clock network shielding is distributed with clock signal conductors and is coupled to the state retention node. Each state retention device has a supply voltage input coupled to the clock network shielding so that it remains powered during the low power state. The state retention node may be implemented as a minimal set of conductive traces. A state retention buffer may be provided for buffering a power gating signal indicative of the low power state, in which the buffer has a supply voltage input coupled to the clock network shielding. | 11-28-2013 |
20140002132 | METHOD AND DEVICE FOR LOW POWER CONTROL | 01-02-2014 |
20140281642 | RESOLUTION PROGRAMMABLE DYNAMIC IR-DROP SENSOR WITH PEAK IR-DROP TRACKING ABILITIES - A data processing system on an integrated circuit includes a core that performs switching operations responsive to a system clock that draws current from the power supply network. An IR-drop detector includes a resistor ladder having outputs representative of an IR-drop caused by the core during the switching operations. The system further includes a plurality of amplifiers coupled to the outputs indicative of the IR-drop, a plurality of flip-flops coupled to the amplifiers, and a variable clock generator. The variable clock generator outputs a sampling clock comprising a group consisting of a variable phase or a variable frequency to the plurality of flip-flops. The flip-flops are triggered by the sampling clock so that the IR-drop at a time during a clock cycle of the system clock can be detected, and the peak IR-drop value for can be tracked. | 09-18-2014 |
20150015306 | SYSTEMS AND METHODS FOR REDUCING POWER CONSUMPTION IN SEMICONDUCTOR DEVICES - A method of making a first timing path includes developing a first design of the first timing path with a first logic circuit and a first functional cell, wherein the first functional cell comprises a first transistor that is spaced from a first well boundary. The timing path is analyzed to determine if the first timing path has positive timing slack. If the analyzed speed of operation shows positive timing slack, the design is changed to a modified design to reduce power consumption of the first timing path by moving the first transistor closer to the first well boundary. Also the first timing path is then built using the modified design to reduce power consumption of the first timing path by reducing leakage power consumption of the first transistor. | 01-15-2015 |
20150116030 | BODY BIAS CONTROL CIRCUIT - A body bias control circuit including an output coupled to provide a bias voltage to a body terminal. The body bias control circuit is configured to change the bias voltage from a first bias voltage to a second bias voltage over a period of time in which a magnitude of an effective rate of change of the bias voltage varies over the period of time. For voltages between the first and second bias voltages closer to a source voltage, the magnitude of the effective rate of change is smaller than for bias voltages between the first and second bias voltages further from the source voltage. | 04-30-2015 |
20150180452 | LOW LEAKAGE CMOS CELL WITH LOW VOLTAGE SWING - A CMOS cell incorporated on an integrated circuit including a PMOS transistor and an NMOS transistor. The current terminals of the PMOS and NMOS transistors are coupled in series between a lower voltage supply rail and a reference rail. The well connection of the PMOS transistor is coupled to an upper voltage supply rail having a voltage level greater than the lower voltage supply rail. The CMOS cell has low voltage swing and low leakage current to reduce power consumption. A second PMOS and NMOS transistor pair may be included and coupled in similar manner and to the first PMOS and NMOS pair to form a non-inverting cell. The PMOS transistors may be implemented in an N-well that is conductively tied to the upper supply voltage rail to avoid isolation barriers. The cell may be used in a clock tree to significantly reduce power consumption of the integrated circuit. | 06-25-2015 |
20150286768 | Routing Standard Cell-Based Integrated Circuits - This disclosure describes a multi-height routing cell and utilization of the multi-height routing in an integrated circuit to reduce routing congestion in a standard cell design floorplan. The multi-height routing cell includes a bypass connection, or “tunnel,” that routes a signal through a non-routing layer and under an impeding power rail. The multi-height routing cell includes bypass connectors on both sides of the bypass connection that provide connection points for which to connect standard cells on opposite sides of the impeding power rail. As such, the multi-height routing cell provides a route underneath the impeding power rail and, in turn, reducing routing congestion in the standard cell design floorplan. | 10-08-2015 |