Homogeneous multicomputer type DSP system NOVI for parallel signal processing

The architecture and performance of a multicomputer-type digital signal processing (DSP) system are discussed. The DSP system, called NOVI, has been created to examine methods for organizing parallel DSP systems and developing parallel programs for a wide range of digital signal processing applicati...

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Hauptverfasser:	Ohta, N., Fujii, T., Kanayama, Y., Ono, S.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Computer architecture Debugging Digital signal processing Load management Motion pictures Parallel processing Personal digital assistants Signal processing Signal processing algorithms Very large scale integration
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creator	Ohta, N. Fujii, T. Kanayama, Y. Ono, S.
description	The architecture and performance of a multicomputer-type digital signal processing (DSP) system are discussed. The DSP system, called NOVI, has been created to examine methods for organizing parallel DSP systems and developing parallel programs for a wide range of digital signal processing applications. NOVI presently consists of 36 processing elements (PEs), each using an Inmos Transputer as a CPU. Its parallel-program-development assistant (PDA) system facilitates powerful debugging functions to observe all PE state without any interference to parallel program execution. A parallel-program-development technique using the PDA is discussed. A load-balancing technique on a multicomputer-type DSP is also discussed, focusing on low-bit-rate motion-picture coding. The balancing technique is based on interframe prediction and layered large-grain data flow. The expected performance of the NOVI system is discussed.< >
doi_str_mv	10.1109/ARRAYS.1988.18097
format	Conference Proceeding
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subjects	Computer architecture Debugging Digital signal processing Load management Motion pictures Parallel processing Personal digital assistants Signal processing Signal processing algorithms Very large scale integration
title	Homogeneous multicomputer type DSP system NOVI for parallel signal processing
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