Abstract: The present disclosure provides a spread spectrum clock generation system having a digitally controlled phase locked loop (PLL) and a digital frequency profile generator to create a near optimal frequency modulation profile for the purpose of achieving spectral flatness in the output frequency modulated clock. The circuit is combined with a multilevel error feedback noise shaping structure that provides the required noise transfer function for the quantization noise but maintains a unity gain all pass signal transfer function. This arrangement offers minimal degradation of the in-band signal-to-noise ratio (SNR) at the cost of higher out-of-band noise.
Abstract: A current-steering digital-to-analog converter may include a plurality of current cells. Each current cell may comprise a dual bias switched cascode output current source/sink, a bias source, complementary bias switching elements coupled between the bias source and the bias inputs of the switched cascode output current source/sink, and complementary switching signals coupled to the control inputs of the complementary bias switching element.
Abstract: The present invention provides a method and system for controlling leakage power consumption at a System on Chip (SoC) level during a normal run or a boot-up mode. The leakage power reduction is achieved by incorporating a central programmable controller in the SoC architecture and test structures of idle SoC peripherals to place them into an Absolute Minimum Power consumption state with respect to static and dynamic power.
Abstract: An embodiment of a low-to-high-level voltage translator is proposed. This translator translates the low voltage swing signals for the core into high voltage swing signals of the I/O blocks. This translator may be particularly useful for high-speed application where the difference between the core and the I/O supply voltage is very large, e.g., the core is working at 0.8V and the I/O is working at 3.6V or higher without little or no static power dissipation. The proposed translator may give improved transition times and propagation delays as compared to conventional translators. The proposed translator may also use less hardware in comparison to other such translators.
Abstract: A methodology for efficiently copying data is presented. An internal controller RAM is multiplexed between storing existing RAM data such as look up table data) and storing copy back data with respect to a flash memory. The data in the controller RAM is temporarily stored in a free space of the flash memory. The data of the flash memory, which is to be copied, is read from a source page and is stored in the free space of the controller RAM, and from there, the data is written to a destination block of the flash memory. After completion of the copy back operation, the data of the controller RAM that was moved to the free space is retrieved for storage back in the controller RAM.
Abstract: A solution for managing a storage device based on a flash memory is proposed. A corresponding method starts with the step for mapping a logical memory space of the storage device (including a plurality of logical blocks) on a physical memory space of the flash memory (including a plurality of physical blocks, which are adapted to be erased individually). The physical blocks include a set of first physical blocks (corresponding to the logical blocks) and a set of second—or spare—physical blocks (for replacing each bad physical block that is unusable). The method continues by detecting each bad physical block. Each bad physical block is then discarded, so to prevent using the bad physical block for mapping the logical memory space.
Abstract: The present disclosure relates to a low consumption flip-flop circuit with data retention, comprising at least one flip-flop and at least one retention cell connected to the output of the flip-flop and configured so that during normal operation of the flip-flop circuit, the retention cell transmits the data or logic state present on the output terminal of the flip-flop to its own output terminal, while during low consumption operation of the flip-flop circuit a latch circuit of the retention cell suitable to memorize data or a logic state corresponding to the last data or logic state present on the output terminal of the flip-flop is activated.
Abstract: A macro-block level parallel video decoder for a parallel processing environment is provided. The video decoder includes a Variable Length Decoding (VLD) block for decoding the encoded Discrete Cosine Transform (DCT) coefficients, a master node that receives the decoded DCT coefficients, and multiple slave nodes/processors for parallel implementation of Inverse Discrete Cosine Transform (IDCT) and motion compensation at the macro-block level. Also provided is a method for macro-block level video decoding in a parallel processing system.
Abstract: An area efficient distributed device for integrated voltage regulators comprising at least one filler cell connected between a pair of PADS on I/O rail of a chip and at least one additional filler cell having small size replica of said device is coupled to said I/O rails for distributing replicas of said device on the periphery of said chip. The device is connected as small size replica on the lower portion of said second filler cell for distributing said device on the periphery of said chip and providing maximal area utilization.
Type:
Application
Filed:
March 24, 2011
Publication date:
July 14, 2011
Applicant:
STMICROELECTRONICS PVT. LTD.
Inventors:
Joshipura JWALANT, Nitin BANSAL, Amit KATYAL, Massimiliano PICCA
Abstract: A memory card and a communication method between a memory card and a host unit are disclosed. High throughput of data between the memory card and the host unit is guaranteed by providing a communication interface between the memory card and the host unit including a first communication interface between a memory unit of the memory card and a control unit of the memory card and a second communication interface between the control unit of the memory card and the host unit.
Abstract: Parallelization of decoding of a data stream encoded with a variable length code includes determining one or more markers, each of which indicates a position within the encoded data stream. The determined markers are included into the encoded data stream together with the encoded data. At the decoder side, the markers are parsed from the encoded data stream and based on the extracted markers. The encoded data is separated into partitions, which are decoded separately and in parallel.
Type:
Application
Filed:
February 9, 2010
Publication date:
June 23, 2011
Applicant:
STMICROELECTRONICS Pvt. Ltd.
Inventors:
Surinder Pal SINGH, Aneesh Bhasin, Kaushik Saha
Abstract: Memory devices and methods of operating a memory cell are disclosed in which a bitline can be grounded after charge sharing with an electrically floating ground line and before writing data to the memory cell. An electric potential of an upper power supply node of a memory cell can be lowered and an electric potential of a lower power supply node of the memory cell can be raised before writing data to the memory cell.
Abstract: A memory device includes bitlines, wordlines and a matrix of memory cells arranged in rows and columns. Each of the bitlines is electrically connected to memory cells in one of the columns. Each of the wordlines is electrically connected to memory cells in one of the rows. A bitline write voltage is applied to a first bitline. A wordline voltage is applied to a first wordline for writing data to a first memory cell connected to the first wordline and the first bitline. The first bitline and the second bitline are electrically connected for charge sharing between the first bitline and the second bitline. A predetermined time after electrically connecting the first bitline and the second bitline, the first and the second bitline are electrically disconnected and the bitline write voltage is applied to the second bitline. The wordline voltage is applied to a second wordline for writing data to a second memory cell connected to the second wordline and the second bitline.
Abstract: A system for decoding frequency modulated signals includes a glue logic module, a key matrix, and a driver coupled to the key matrix. The glue logic module provides a pre-scaled frequency signal, while the key matrix receives the pre-scaled frequency signal. The driver decodes the pre-scaled frequency signal to generate at least one event update corresponding to a frequency of the pre-scaled frequency signal.
Abstract: The present disclosure provides an emulator mapping process on a system-on-a-chip (SoC) for debugging. The implementation reduces manual intervention and makes the emulation mapping process very generic and technology independent and hence it reduces overall project cycle time. In the present disclosure, the SoCs containing analog delay locked loops are made suitable for emulation by configuring analog delay locked loop module in parallel with a synthesizable delay logic module. Further, selection logic is provided to select any one of the module at a time.
Abstract: A system and method for decoding quadrature signals includes a quadrature signal generator, a quadrature signal decoder, a key matrix and a driver. The quadrature signal generator generates quadrature signals on rotation. The quadrature signal decoder is configured to convert the quadrature signals into non-overlapping signals. The key matrix is configured to receive the non-overlapping signals. The driver is configured to scan the key matrix to decode the non-overlapping signals to generate an event update corresponding to a direction of rotation of the quadrature signal generator.
Abstract: A system for noise removal is coupled to a signal unit that provides a digital signal. The noise removal system includes a transformation module to transform the digital signal into an f-digital signal, a threshold filter to generate a noiseless signal from the f-digital signal based on a threshold profile, and a signal synthesizer to provide a gain to the noiseless signal and to transform the noiseless signal into an output signal.
Abstract: A system for generating test signals to test characteristics of input-output (IO) cells includes a memory and a processor coupled together through an integrated circuit (IC) chip. The IC chip includes a controller configured to exchange signals between the memory and the processor through IO cells of the IC chip. The IC chip further includes a protocol sequence generator for generating test signals for testing characteristics of the IO cells.
Type:
Application
Filed:
March 31, 2010
Publication date:
June 16, 2011
Applicant:
STMICROELECTRONICS Pvt. Ltd.
Inventors:
Anil K. Dwivedi, Akhilesh Chandra, Ajay Arun Kulkarni
Abstract: A GOP-independent dynamic bit-rate controller system includes a user interface to receive one or more input parameters, a bit-rate controller and an encoder. The bit-rate controller regulates a bit-rate of an output bit-stream. The bit-rate controller includes multiple bit-rate modules to determine a bit-estimate and a quantization parameter, and a control module to calculate a convergence period based on the received input parameters and a frame rate. The control module selects a bit rate module based on the convergence period and the encoder generates the output bit-stream using the quantization parameter determined by the bit rate module.
Type:
Application
Filed:
June 21, 2010
Publication date:
June 16, 2011
Applicant:
STMICROELECTRONICS PVT. LTD.
Inventors:
Subarna TRIPATHI, Emiliano Mario Piccinelli
Abstract: A difference between a reference clock and feedback clock is detected to generate a difference signal that is filtered to generate a voltage controlled oscillator control signal and produce an oscillation signal having an oscillation frequency. A first frequency dividing circuit divides the oscillation signal by a selected one of a number of first frequency divisors to generate an output signal at a selected frequency. A second frequency dividing circuit divides the output signal by a selected one of a number of second frequency divisors to generate the feedback clock. The frequency divisors are selected by a frequency selection signal. The first frequency dividing circuit samples the frequency selection signal at the rate of the oscillation signal divided by a least common multiple of the plurality of first frequency divisors. The second frequency dividing circuit samples the sampled frequency selection signal at the rate of the feedback clock.