摘要:
The invention relates to a method for electronically representing a number V in a binary data word. Both the exponent and the mantissa are represented as 2' complement. The mantissa is normalized to 0.1.F if the number V is positive where F is the fraction of the mantissa. In case that the number V is negative the fraction F is normalized to 10.F. Usage of this format allows to design an improved adder which requires less hardware.
摘要:
Parallel signal processor (10) (FIG. 2) performs a Fourier Transformation of an input signal; The transformation coefficients are converted once to logarithmic form and stored in a cache memory. The input data is converted serially to logarithmic form, and fed to all processing units in parallel. The processing units compute their respective products as additions in the logarithmic domain. Then, the products are converted back to the normal domain. The products with the correct sign are summed by an accumulator of the respective processing element. After the last signal data point has run through the processing elements and the last products are added to their respective sums, all complex output signal data points are complete simultaneously.
摘要:
In a parallel computer system having N parallel computing units a data pipeline connects all the computing units. In addition the computing units are coupled to a random access memory so that each computing unit is assigned to one column of the memory array. To perform a digital signal processing filter operation the required coefficients are stored in the memory so that one or more different filter operations can be carried out in an interleaved way.
摘要:
With reference to FIG. 1 signal processor (10) for performing transformations of sets of input data points comprises a memory for storing a first half input data points and a second half input data points, an adder unit for pairwise adding one real part of each one first half input data point and a second half input data point and providing adder output data, and a computing unit for performing transformations upon the adder output data. Addition for data reduction and data transformation are carried out simultaneously by different units.
摘要:
An encoding system (400) receives samples and coefficients from a bus (422). The system comprises a plurality of parallel operating memory devices (430-k), registers (435-k), computing units (440-k), and accumulator units (460-k). The system (400) further comprises a parallel-to-serial buffer (470) coupled to the accumulator units (440-k) and a pair generator (480) for providing amplitude/index pairs. The system (400) performs encoding steps such as transforming, quantizing, zigzagging, rate controlling, and run-length coding. Transforming is explained for the example of a Forward Discrete Cosine Transformation (FDCT). According to a method (500) of the present invention, zigzagging (510) occurs prior to transforming (570) and performed only once when transformation coefficients are provided to the memory devices (430-k) in a zigzag arrangement. Quantizing occurs prior to transforming by pre-calculating the coefficients with quantizers. Pair generator (480) performes rate-controlling and run-length encoding (550). (with reference to FIGS. 2 and 9)
摘要:
A parallel computer processor that performs L1 norm calculations includes a plurality of processing elements and a data pipeline which couples the processing elements. The data vectors for which the L1 norm is to be calculated are stored in storage lines of a cache memory. In operation each processing element accesses data in its private storage column in the cache memory and calculates a term signal. The term signals are added to form the resulting L1 norm.
摘要:
A parallel processor (110) operates in the LOG domain. A LOG converter (114) receives input data in the NORMAL and converts it to the LOG domain for processing in the parallel processing units PPU-k. Scaling of the input data, is performed in the LOG converter (114) without need for additional multipliers. A constant factor is added to the LOG input data during the LOG conversion process using existing LOG adders already present to perform the LOG conversion. Thus, less total circuitry is needed and the processor can be made more compact, more efficient and less costly.
摘要:
A memory system (3) for storing data messages communicated between a processor unit (13) and a communication module (11), each data message comprising at least one data word, comprises a memory array (4) having a plurality of memory buffers (B0-BM), each buffer for storing a data message, and logic circuitry (24) coupled to the memory array (4). The logic circuitry (24) sets one bit of a data message stored in a memory buffer to a first logic state during a processor unit read access when the processor unit (13) reads a current data message from the memory buffer, and negates the one bit to a second logic state during a communication module write access when the communication module (11) writes a new data message into the memory buffer. When the communication module (11) is to write a new data message to one of the memory buffers, the state of the one bit of the current data message stored in the one memory buffer provides an indication as to whether the new data message will overwrite the current data message, which current data message has not been read by the processor unit (13) or whether the new data message will overwrite the current data message, which current data message has been read by the processor unit (13).
摘要:
An asynchronous transfer mode (ATM) system has a plurality of physical layers (24, 50, 52, and 26) coupled to one ATM layer (12) for communicating ATM data cells. In order to allow bi-directional communication, both the receive interface and the transmit interface of FIGS. 14 and 15 are coupled between the ATM layer and each physical (PHY) layer in the plurality of physical layers. In order to identify which physical layer of the plurality of physical layers is to either receive or transmit a data cell, a physical layer ID byte is transmitted along with the UTOPIA protocol multi-byte ATM data cell to address one physical layer in the plurality of physical layers.
摘要:
A transfer layer of an ATM type used between a switch (216) and a number N of communication channels (218). Each communication channel (218) has second storage arrangement B.sub.0, . . . , B.sub.N-1 for storing cell queues having a length of up to P cells each, one of the second storage arrangements being in a busy condition if a minimum number M of cells is stored therein, where M is lesser of equal P. Each communication channel is assigned to one of the switch queues. The transfer layer (217) has third storage arrangement T for storage of a cell queue having a length of up to L cells. Furthermore the transfer layer (217) selectively disables the input of a cell from one of the switch queues into the third storage arrangement if the second storage arrangement is in a busy condition.