Patent application number | Description | Published |
20090067487 | INCREASING PWM RESOLUTION BY MODULATION - A method for generating a pulse width modulated (PWM) signal includes determining a PWM period and/or a pulse width of the pulse width modulated signal by counting the number of clock cycles of a reference clock signal and by switching the pulse width modulated signal when a predetermined number of clock cycles is reached. The reference clock signal comprises clock cycles of at least a first clock period and a second clock period. The first clock period and the second clock period differ by an amount of time, which is substantially smaller than both half of the first clock period and half of the second clock period. | 03-12-2009 |
20090284295 | Timer for Low-Power and High-Resolution - The present invention is an electronic device comprising a counter driven by an input clock signal for counting clock cycles and providing a count. A clock signal generating stage provides a first set of phase shifted clock signals having m different phases. The electronic device determines n least significant bits of the count of the counter from the logic states of the first set of m phase shifted clock signals. | 11-19-2009 |
20090289665 | Comparator - An electronic device compares a first voltage with a selected first reference voltage or second reference voltage. The electronic device includes a comparator having a first input receiving the first voltage, a second input receiving the selected reference voltage and an output providing an output signal based on a comparison. A control stage connected to the output of the comparator generates a control signal based on the output of the comparator. The electronic device selects either the first reference voltage or the second reference voltage in response to the control signal thus comparing the first voltage with the selected reference voltage. | 11-26-2009 |
20100176859 | Self-Protecting Core System - The present invention is applicable to an electronic device including a master, a slave, a bus coupling the master and the slave and a clock generator for providing a system clock to the master and slave. The clock generator determines whether the received data is correct on a cycle-by-cycle basis. The clock generator suppresses an edge of a next clock cycle of the system clock signal if the data is not to be correct. The clock generator allows the edge of a next clock cycle of the system clock signal if the data is correct. | 07-15-2010 |
20100191979 | Apparatus and Method with Controlled Switch Method - An embedded microcontroller system comprises a central processing unit, a system controller for receiving and handling an interrupt, a register having storage locations containing sets of predefined system data for different operating conditions of the system assigned to the interrupts coupled to set a system configuration. The system data in the register is defined and stored before receipt of an interrupt. On receipt of an interrupt the system controller transmits a selection signal to the register. The register selects a predefined storage location assigned to the received interrupt. The corresponding system configuration data is used to control system configuration of the embedded microcontroller system, such as allocation of CPU time to virtual CPUs and selection of clock frequency or power voltage for modules. | 07-29-2010 |
20100235698 | JTAG Mailbox - An electronic device comprises a processing stage, a JTAG port including a test data input pin (TDI), a test data output pin (TDO), a test mode select pin (TMS), a test clock pin (TCK), and a test access port (TAP) controller having a data register (DR) shift state and an instruction register shift (IR) state. The electronic device operates in a scan event mode automatically mapped an incoming event to the TDO pin. | 09-16-2010 |
20130031154 | SELF-TIMED MULTIPLIER - A self-timed multiplier unit includes a multiplier and a clock generator. The multiplier has a first set of semiconductor circuits in a critical path. The clock generator has a second set of semiconductor circuits configured to control a clock period of said clock generator selected to set a clock period longer than the propagation delay through the critical path of the multiplier. The clock generator may include a delay circuit having a delay to set the clock period longer than the propagation delay through the critical path of said multiplier. The clock generator uses circuit with identical logical design including the same standard cells, the same logic design or the same floor plan. Close matching of these circuit causes the multiplier and the clock generator to experience the same PVT speed variations. | 01-31-2013 |
20140047247 | Microprocessor Unit Capable of Multiple Power Modes - A power mode control system for microprocessors offers an unlimited variety of hardware-supported power modes that may satisfy any operating scenario. The microprocessor unit comprises a register that contains particular bit fields for defining selectable power modes. The particular bit fields in the register define pointers to a power mode defining register. Each pointer selects a corresponding bit field in the power mode defining register. The bits in the bit fields of the power mode defining register either directly control a power mode of at least one functional or peripheral blocks of the unit; or they are pointers to a further power mode defining register and the bits in the bit fields of the further power mode defining register directly control a power mode of at least one functional or peripheral blocks of the unit. | 02-13-2014 |
20140089639 | PROCESSOR WITH INSTRUCTION CONCATENATION - A processor includes a plurality of execution units. At least one of the execution units is configured to determine, based on a field of a first instruction, a number of additional instructions to execute in conjunction with the first instruction and prior to execution of the first instruction. | 03-27-2014 |
20140089640 | PROCESSOR WITH VARIABLE INSTRUCTION ATOMICITY - A processor includes a plurality of execution units. At least one of the execution units is configured to execute a complex instruction that requires multiple instruction cycles to execute, and to enforce atomic execution of the complex instruction during a first-portion of the multiple instruction cycles required to execute the complex instruction. The at least one of the execution units is further configured to enable execution of the complex instruction to be interrupted for execution of a different instruction by the at least one execution unit during execution of a second portion of the multiple instruction cycles. The first portion and the second portion are non-overlapping. | 03-27-2014 |
20140089641 | PROCESSOR WITH INSTRUCTION ITERATION - A processor includes a plurality of execution units. At least one of the execution units is configured to repeatedly execute a first instruction based on a first field of the first instruction indicating that the first instruction is to be iteratively executed. | 03-27-2014 |
20140089645 | PROCESSOR WITH EXECUTION UNIT INTEROPERATION - A processor includes a plurality of execution units. Each of the execution units includes processing logic configured to process data, and registers accessible by the processing logic. At least one of the execution units is configured to execute a first instruction that causes the at least one execution unit to: route a value from a first register of the registers of one of the execution units to the processing logic of one of the execution units, to process the value in the processing logic to generate a result, and to store the result in a second register of the registers of one of the execution units. At least one of the first register, the second register, and the processing logic are located in a different one of the execution units from the at least one of the execution units. | 03-27-2014 |
20140089646 | PROCESSOR WITH INTERRUPTABLE INSTRUCTION EXECUTION - A processor includes a plurality of execution units. Each of the execution units includes a status register configured to store a value indicative of state of the execution unit. At least one of the execution units is configured to execute a complex instruction that requires multiple instruction cycles to execute. The at least one of the execution units is also configured to interrupt execution of the complex instruction to execute a different instruction, and resume, based on the value stored in the status register, execution of the complex instruction at the point interrupted after execution of the different instruction. | 03-27-2014 |
20140253096 | ELECTRONIC DEVICE AND METHOD FOR TRACKING ENERGY CONSUMPTION - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant ON-time. | 09-11-2014 |
20140300342 | TRACKING ENERGY CONSUMPTION USING A BOOST TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 10-09-2014 |
20140300343 | TRACKING ENERGY CONSUMPTION USING A SEPIC-CONVERTER TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 10-09-2014 |
20140301112 | TRACKING ENERGY CONSUMPTION USING A FLY-BACK CONVERTER TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 10-09-2014 |
20140327457 | TRACKING ENERGY CONSUMPTION USING A BOOST-BUCK TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 11-06-2014 |
20140327467 | ENERGY TRACKING SYSTEM - A system for tracking energy use in a electronic circuit. In one embodiment, an energy tracking system includes pulse timing logic and reporting logic. The pulse timing logic is configured to receive a pulse signal from a DC-DC converter, and measure a duration of a pulse of the pulse signal. The pulse signal controls the switching of energy to the storage device in the DC-DC converter. The reporting logic is configured to report the measured duration of the pulse to an energy monitoring system. | 11-06-2014 |
20140372729 | PROCESSOR WITH EXECUTION UNIT WAIT CONTROL - A processor includes a processor core. The processor core includes a first execution unit and a second execution unit. The first execution unit is configured to 1) execute a complex instruction that requires multiple instruction cycles to execute; 2) generate a wait signal that when asserted suspends execution of instructions by the second execution unit for at least a portion of the execution of the complex instruction; and 3) maintain information defining parameters of the wait signal generation across interruption of the complex instruction by execution of a different instruction in the first execution unit. | 12-18-2014 |
20140372733 | PROCESSOR WITH INTER-EXECUTION UNIT INSTRUCTION ISSUE - A processor includes an instruction storage memory, a processor core, and an instruction merge unit. The processor core includes a plurality of execution units coupled to the instruction storage memory. A first of the execution units is configured to execute instructions provided from the instruction storage memory via a first instruction path, and to execute instructions provided by a second of the execution units via a second instruction path. The second of the execution units is configured to execute instructions provided from the instruction storage memory, and to provide instructions for execution to the first of the execution units via the second instruction path. The instruction merge unit is configured to merge the instructions provided via the first and second instruction paths into a stream of instructions to be executed by the first execution unit. | 12-18-2014 |
20150015233 | TRACKING ENERGY CONSUMPTION USING A BUCK-BOOSTING TECHNIQUE - The invention relates to an apparatus and method for tracking energy consumption. An energy tracking system comprises at least one switching element, at least one inductor and a control block to keep the output voltage at a pre-selected level. The switching elements are configured to apply the source of energy to the inductors. The control block compares the output voltage of the energy tracking system to a reference value and controls the switching of the switched elements in order to transfer energy for the primary voltage into a secondary voltage at the output of the energy tracking system. The electronic device further comprises an ON-time and OFF-time generator and an accumulator wherein the control block is coupled to receive a signal from the ON-time and OFF-time generator and generates switching signals for the at least one switching element in the form of ON-time pulses with a constant width ON-time. | 01-15-2015 |
20150019604 | FUNCTION ACCELERATOR - A circuit and method for accelerating function evaluation. In one embodiment, a processor includes a function accelerator unit configured to evaluate a mathematical function. The function accelerator unit includes a coefficient generator and a polynomial evaluator. The coefficient generator is configured to generate coefficients for a polynomial evaluated to produce a solution to the function. The coefficient generator varies values of the coefficients based on an input value at which the function is to be evaluated. The polynomial evaluator configured to apply the coefficients provided by the coefficient generator to evaluate the polynomial at the input value. | 01-15-2015 |
20150069857 | SYSTEM AND METHOD FOR ENERGY MONITORING - A system and method for monitoring energy use in an electronic device. In one embodiment, an energy monitoring system includes a processor and an energy monitor module. The energy monitor module includes instructions that when executed cause the processor to receive values of measured parameters of a pulse signal that controls the switching of energy to an energy storage device in a switch mode power supply that provides power to an electronic device. The instructions also cause the processor to determine, based on the values of measured parameters, attributes of operation of the electronic device powered by the energy source during an interval corresponding to the measured parameters. The instructions further cause the processor to generate, based on the attributes of operation, a control signal that causes the electronic device to change the loading of the power supply by the electronic device. | 03-12-2015 |
20150074636 | SYSTEM AND METHOD FOR ENERGY AWARE PROGRAM DEVELOPMENT - A program optimizer includes an energy tracking system, an energy monitoring system, and a code generation control system. The energy tracking system measures a pulse signal of a DC-DC converter that provides energy to a processor. The energy monitoring system determines, based on values received from the energy tracking system, attributes of operation of the processor. The code generation control system determines whether the values indicate that the execution of a first version of a program uses an amount of energy that is outside a predefined energy range, and to: 1) identify a parameter of an instruction generator that if changed will cause a second version of the program, when to use an amount of energy that is within the predefined energy range; 2) change a value of the identified first parameter; and 3) produce a second version of the program based on the changed value of the first parameter. | 03-12-2015 |