Patent application number | Description | Published |
20100138463 | Digital Signal Processor Having Instruction Set With One Or More Non-Linear Functions Using Reduced Look-Up Table - A digital signal processor and method are disclosed having an instruction set with one or more non-linear functions using a look-up table of reduced size. A digital signal processor evaluates a non-linear function for a value, x, by obtaining two or more values for the non-linear function that are near the value, x, from at least one look-up table, wherein the at least one look-up table stores a subset of values for the non-linear function; and interpolating the two or more obtained values to obtain a result, y. The interpolation may comprise, for example, a linear interpolation or a polynomial interpolation. In a further variation, a modulo arithmetic operation can be employed for a periodic non-linear function. | 06-03-2010 |
20100138464 | Digital Signal Processor Having Instruction Set With One Or More Non-Linear Functions Using Reduced Look-Up Table With Exponentially Varying Step-Size - A digital signal processor and method are disclosed having an instruction set with one or more non-linear functions using a look-up table of reduced size and exponentially varying step-sizes. A digital signal processor evaluates a non-linear function for a value, x, by obtaining at least two values from at least one look-up table for the non-linear function that are near the value, x, wherein the at least one look-up table stores a subset of values for the non-linear function using exponentially-varying step sizes; and interpolating the at least two obtained values lo to obtain a result, y. A position of a leading zero in the value, x, can be used as an index into the at least one look-up table. The interpolation can comprise, for example, a linear interpolation or a polynomial interpolation. A modulo arithmetic operation can optionally be employed for a periodic non-linear function. | 06-03-2010 |
20100138465 | Digital Signal Processor With One Or More Non-Linear Functions Using Factorized Polynomial Interpolation - A digital signal processor and method are disclosed with one or more non-linear functions using factorized polynomial interpolation. A digital signal processor evaluates a non-linear function for a value, x, by obtaining two or more values from at least one look-up table for said non-linear function that are near said value, x; and interpolating said two or more obtained values to obtain a value, y, using a factorized polynomial interpolation. | 06-03-2010 |
20100138468 | Digital Signal Processor Having Instruction Set With One Or More Non-Linear Complex Functions - Methods and apparatus are provided for a digital signal processor having an instruction set with one or more non-linear complex functions. A method is provided for a processor. One or more non-linear complex software instructions are obtained from a program. The non-linear complex software instructions have at least one complex number as an input. One or more non-linear complex functions are applied from a predefined instruction set to the at least one complex number. An output is generated comprised of one complex number or two real numbers. A functional unit can implement the one or more non-linear complex functions. In one embodiment, a vector-based digital signal processor is disclosed that processes a complex vector comprised of a plurality of complex numbers. The processor can process the plurality of complex numbers in parallel. | 06-03-2010 |
20100198893 | Digital Signal Processor Having Instruction Set With An Xk Function Using Reduced Look-Up Table - A digital signal processor is provided having an instruction set with an x | 08-05-2010 |
20100198894 | Digital Signal Processor Having Instruction Set With An Exponential Function Using Reduced Look-Up Table - A digital signal processor is provided having an instruction set with an exponential function that uses a reduced look-up table. The disclosed digital signal processor evaluates an exponential function for an input value, x, by decomposing the input value, x, to an integer part, N, a first fractional part, q | 08-05-2010 |
20100198895 | Digital Signal Processor Having Instruction Set With A Logarithm Function Using Reduced Look-Up Table - A digital signal processor is provided having an instruction set with a logarithm function that uses a reduced look-up table. The disclosed digital signal processor evaluates a logarithm function for an input value, x, by decomposing the input value, x, to a first part, N, a second part, q, and a remaining part, r, wherein the first part, N, is identified by a position of a most significant bit of the input value, x, and the second part, q, is comprised of a number of bits following the most significant bit, wherein the number is small relative to a number of bits in the input value, x; obtaining a value | 08-05-2010 |
20140075162 | DIGITAL PROCESSOR HAVING INSTRUCTION SET WITH COMPLEX EXPONENTIAL NON-LINEAR FUNCTION - A digital processor is provided having an instruction set with a complex exponential function. The digital processor evaluates a complex exponential function for an input value, x, by obtaining a complex exponential software instruction having the input value, x, as an input; and in response to the complex exponential software instruction: invoking at least one complex exponential functional unit that implements complex exponential software instructions to apply the complex exponential function to the input value, x; and generating an output corresponding to the complex exponential of the input value, x. A complex exponential function for an input value, x, can be evaluated by wrapping the input value to maintain a given range; computing a coarse approximation angle using a look-up table; scaling the coarse approximation angle to obtain an angle from 0 to θ; and computing a fine corrective value using a polynomial approximation. | 03-13-2014 |
20140086361 | PROCESSOR HAVING INSTRUCTION SET WITH USER-DEFINED NON-LINEAR FUNCTIONS FOR DIGITAL PRE-DISTORTION (DPD) AND OTHER NON-LINEAR APPLICATIONS - A processor is provided having an instruction set with user-defined non-linear functions for digital pre-distortion (DPD) and other non-linear applications. A signal processing function, such as DPD, is implemented in software by obtaining at least one software instruction that performs at least one non-linear function for an input value, x, wherein the at least one non-linear function comprises at least one user-specified parameter; in response to at least one of the software instructions for at least one non-linear function having at least one user-specified parameter, performing the following steps: invoking at least one functional unit that implements the at least one software instruction to apply the non-linear function to the input value, x; and generating an output corresponding to the non-linear function for the input value, x. The user-specified parameter can optionally be loaded from memory into at least one register. | 03-27-2014 |
20140108477 | VECTOR PROCESSOR HAVING INSTRUCTION SET WITH VECTOR CONVOLUTION FUNCTION FOR FIR FILTERING - A vector processor is provided having an instruction set with a vector convolution function. The disclosed vector processor performs a convolution function between an input signal and a filter impulse response by obtaining a vector comprised of at least N | 04-17-2014 |
20140317163 | Vector Processor Having Instruction Set With Sliding Window Non-Linear Convolutional Function - A processor is provided having an instruction set with a sliding window non-linear convolution function. A processor obtains a software instruction that performs a non-linear convolution function for a plurality of input delayed signal samples. In response to the software instruction for the non-linear convolution function, the processor generates a weighted sum of two or more of the input delayed signal samples, wherein the weighted sum comprises a plurality of variable coefficients defined as a sum of one or more non-linear functions of a magnitude of the input delayed signal samples; and repeats the generating step for at least one time-shifted version of the input delayed signal samples to compute a plurality of consecutive outputs. The software instruction for the non-linear convolution function is optionally part of an instruction set of the processor. The non-linear convolution function can model a non-linear system with memory, such as a power amplifier model and/or a digital pre-distortion function. | 10-23-2014 |