DocumentCode
337281
Title
Evolvable platform for array processing: a one-chip approach
Author
Girau, B. ; Marchal, P. ; Nussbaum, P. ; Tisserand, A. ; Restrepo, Hector Fabio
Author_Institution
Centre Suisse d´´Electron. et de Microtech. SA, Neuchatel, Switzerland
fYear
1999
fDate
1999
Firstpage
187
Lastpage
193
Abstract
The crossbreeding between advanced microprocessor design and Field Programmable Gate Arrays (FPGAs) has produced the Field Programmable Processor Array, code named FPPA. The first integrated version has been targeted for low power consumption parallel processing. The FPPA is composed of a 10×10 array of RISC microcontrollers offering up to 500 MIPS at 5 MHz for processors (20 MHz for communications). The very low power feature of the core processor results in a 1 Watt power consumption for the whole array at 5 MHz and makes it particularly interesting for portable devices that require quite complex algorithms. In addition, the FPPA principle, i.e., fault-tolerant large array of cells interconnected with an asynchronous communication scheme, is applicable on alternative structures for the cell architecture
Keywords
fault tolerant computing; low-power electronics; microcontrollers; parallel architectures; reduced instruction set computing; 1 W; 20 MHz; 5 MHz; 500 MIPS; FPPA; RISC microcontrollers; array processing; asynchronous communication scheme; cryptography; evolvable platform; fault-tolerant large array; field programmable processor array; low power consumption parallel processing; modular arithmetic; multi-site process control; portable devices; single-chip implementation; Array signal processing; Clocks; Collaborative software; Computer architecture; Embryo; Energy consumption; Field programmable gate arrays; Microprocessors; Organisms; Reduced instruction set computing;
fLanguage
English
Publisher
ieee
Conference_Titel
Microelectronics for Neural, Fuzzy and Bio-Inspired Systems, 1999. MicroNeuro '99. Proceedings of the Seventh International Conference on
Conference_Location
Granada
Print_ISBN
0-7695-0043-9
Type
conf
DOI
10.1109/MN.1999.758863
Filename
758863
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