Patent application number | Description | Published |
20100150271 | MODULATED CLOCK, AN IC INCLUDING THE MODULATED CLOCK AND A METHOD OF PROVIDING A MODULATED CLOCK SIGNAL FOR POWER CONTROL - A modulated clock, a method of providing a modulated clock signal, an integrated circuit including a modulated clock and a library of cells including a modulated clock. In one embodiment, the modulated clock includes (1) a clock controller configured to generate a digital control stream and (2) clock logic circuitry having a first input configured to receive a clock signal and a second input configured to receive the digital control stream. The clock logic circuitry is configured to provide a modulated clock signal in response to the clock signal and the digital control stream, wherein the modulated clock signal has an effective frequency that differs from the first frequency. | 06-17-2010 |
20100162058 | SEQUENTIAL ELEMENT LOW POWER SCAN IMPLEMENTATION - Disclosed herein is a sequential element having a master stage and a slave stage and a method of testing an IC having a scan chain and an IC. In one embodiment, the sequential element includes: (1) an input scan multiplexor configured to place the sequential element in a functional mode or a scan mode in response to a scan enable input and (2) a scan out driver coupled to the slave stage and configured to provide a scan out signal when the sequential element is in the scan mode, the scan out driver coupled to an inverted scan enable input for a negative voltage supply. | 06-24-2010 |
20120065919 | BUILT-IN SELF-TEST CIRCUIT-BASED RADIATION SENSOR, RADIATION SENSING METHOD AND INTEGRATED CIRCUIT INCORPORATING THE SAME - A radiation sensor for an integrated circuit (IC), a radiation sensing method and an IC incorporating the sensor or the method. In one embodiment, the radiation sensor includes: (1) a built-in self-test (BIST) controller configured to provide BIST with respect to main IC circuitry of the IC and (2) a radiation sensor controller coupled to the main IC circuitry and the BIST controller and configured to identify temporarily inactive portions of the main IC circuitry and cause the BIST controller to perform at least one BIST with respect to at least one of the portions, the at least one of the portions acting as a radiation target. | 03-15-2012 |
Patent application number | Description | Published |
20080244474 | Cell library management for power optimization - A method of managing a cell library regarding power optimization is disclosed. The method generally includes the steps of (A) reading a plurality of first modules within a first region of a circuit design stored in a design file, (B) calculating a first merit value indicating a relative sensitivity of the first region to a power consumption, the first merit value having a range from a static power dominated value to a dynamic power dominated value and (C) creating a constraint file configured to limit a design tool to a first subset of a plurality of replacement modules based on the first merit value such that the design tool automatically optimizes the power consumption of the first region by replacing at least one of the first modules with at least one of the replacement modules within the first subset, the replacement modules residing in a library file. | 10-02-2008 |
20090144682 | DUAL PATH STATIC TIMING ANALYSIS - A method to analyze timing in a circuit, generally including (A) simulating reception of an input signal and a clock signal at a first flip-flop, wherein (i) the input signal has a latest transition, (ii) the input signal arrives through a first path and (iii) the clock signal has an active edge, (B) calculating a value of a time difference between the latest transition and the active edge, (C) calculating a delay between the active edge and the latest transition appearing in an output signal, wherein (i) the delay is based on a model responding to the value, (ii) the model characterizes a clock-to-output delay as a function of the time difference and (iii) the characterization covering a range of values, (D) calculating an arrival time of the latest transition at a second flip-flop through a second signal path and (E) storing the arrival time in a recording medium. | 06-04-2009 |
20090164956 | REDISTRIBUTION OF CURRENT DEMAND AND REDUCTION OF POWER AND DCAP - A method to redistribute current demand is presented. The method includes a first step of determining timing arc data for one or more timing arcs of a circuit design. The method includes a second step of checking the timing arc data for delay shift target cells. The method includes a further step of swapping a delay shift target cell with a delay shift cell. | 06-25-2009 |
20090285047 | ROW DECODE DRIVER GRADIENT DESIGN IN A MEMORY DEVICE - A memory device using a plurality of enhanced row decode drivers for activating wordlines in a memory array is disclosed. Circuit design attributes of the enhanced row decode drivers are varied as a function of proximity to a source of a row address signal applied to each decode driver. The circuit variations are operable to reduce the leakage power of the driver by degrading performance thereof while maintaining required worst case timing. The worst case timing being defined by the timing and performance requirements for the most distant of the row decode driver circuits relative to the source of the applied row address signals. | 11-19-2009 |
20110304052 | POWER GRID OPTIMIZATION - A global power distribution network in an integrated circuit comprising a first layer of conductive material and a second layer of conductive material. The first layer of conductive material may be (i) coupled to one or more power supplies and (ii) configured to form a plurality of first rails of a mesh. The first rails may (a) supply power to one or more components of a core logic of the integrated circuit, (b) be aligned with a first axis of the integrated circuit, and (c) have one or more parameters configured such that the mesh has a uniform voltage gradient from a perimeter of the integrated circuit to a center of the integrated circuit along the first axis. The second layer of conductive material may be (i) coupled to the one or more power supplies and (ii) configured to form a plurality of second rails of the mesh. The second rails may (a) supply power to one or more components of the core logic, (b) be aligned with a second axis of the integrated circuit, and (c) have one or more parameters configured such that the mesh comprises a uniform voltage gradient from the perimeter of the integrated circuit to the center of the integrated circuit along the second axis. | 12-15-2011 |
20120023473 | GRANULAR CHANNEL WIDTH FOR POWER OPTIMIZATION - A storage medium recording a cell library having one or more cells that may be readable by a computer and may be used by the computer to design an integrated circuit. The one or more cells may have a physical dimension parameter and a channel width parameter. The physical dimension parameter may be a footprint of the one or more cells. The channel width parameter may have a minimum driver size and a maximum driver size. The channel width parameter may define a range within which a tool varies the channel width between the maximum driver size and the minimum driver size during a design flow of the integrated circuit based upon one or more power criteria without changing the footprint. | 01-26-2012 |
20120119788 | On-chip Power Supply Monitoring Using a Network of Modulators - An apparatus for monitoring at least supply voltage in an IC includes a plurality of monitor circuits distributed throughout the integrated circuit. Each of the monitor circuits is operative to receive the supply voltage, or a signal representative thereof, and to generate an output signal indicative of a comparison between the supply voltage and a reference voltage. The apparatus further includes a control circuit coupled to the plurality of monitor circuits. The control circuit is operative to receive the respective output signals from the plurality of monitor circuits and to generate an output of the apparatus which is a function of information conveyed in the respective output signals from the plurality of monitor circuits. | 05-17-2012 |
20140074449 | SCALABLE POWER MODEL CALIBRATION - A high-frequency supply voltage waveform is sampled from a functioning integrated circuit. This waveform is measured at (or coupled closely to) a power supply node on the integrated circuit. A low-frequency supply current waveform is sampled concurrently with the sampling the high-frequency supply voltage waveform. This waveform is measured at a power supply node external to the integrated circuit. A power supply network providing power to the integrated circuit is modeled with a circuit model. The power supply network is modeled using the high-frequency supply voltage waveform as an input to the circuit model. A simulation output is taken at a simulated power supply node corresponding to the power supply node external to said integrated circuit. Based on a comparison of the simulated low-frequency supply current waveform and the low-frequency supply current waveform, a value of at least one component of the circuit model is adjusted. | 03-13-2014 |
Patent application number | Description | Published |
20100264983 | Systems and Methods for Power Dissipation Control in a Semiconductor Device - Various embodiments of the present invention provide systems and methods for governing power dissipation in a semiconductor device. For example, various embodiments of the present invention provide semiconductor devices that include a first function circuit, a second function circuit, and a power state change control circuit. The power state change control circuit is operable to determine a combination of power states of the first function circuit and the second function circuit that provides an overall power dissipation within a power dissipation level. | 10-21-2010 |
20100268917 | Systems and Methods for Ramped Power State Control in a Semiconductor Device - Various embodiments of the present invention provide systems and methods for ramping current usage in a semiconductor device. For example, various embodiments of the present invention provide semiconductor devices that include at least a first function circuit and a second function circuit, and a power state change control circuit. The power state change control circuit is operable to transition the power state of the first function circuit from a reduced power state to an operative power state, and to transition the second function circuit from a reduced power state to an operative power state. Transition of the power state of at least one of the first function circuit and the second function circuit is done in at least a first stage at a first time and a second stage at a second time, with the second time being after the first time. | 10-21-2010 |
20100269074 | Predictive Power Management Semiconductor Design Tool and Methods for Using Such - Various embodiments of the present invention provide systems and methods for improved semiconductor design. For example, various embodiments of the present invention provide methods for semiconductor design that include receiving a semiconductor design with at least a first function circuit and a second function circuit; simulating the semiconductor design using a first instruction and a second instruction; determining a power state transition between the first instruction and the second instruction; and augmenting the semiconductor design to implement the determined power state transition. Simulating the semiconductor design using a first instruction and a second instruction identifies an indication of a first subset of the first function circuit and the second function circuit used in executing the first instruction and a second subset of the first function circuit and the second function circuit used in executing the second instruction. The power state transition accommodates at least one power attribute selected from a group consisting of: an inrush current value, and an overall power dissipation value. | 10-21-2010 |