Trident: from high-level language to hardware circuitry / Justin L. Tripp ... [et. al.] | |
Otros Autores: | Gokhale, Maya B. ; Peterson, Kristopher D. ; Tripp, Justin L.. |
Tema(s): | |
Resumen: | Unlocking the potential of field-programmable gate arrays requires compilers that translate algorithmic high-level language code into hardware circuits. The trident open source compeller translates C code to a hardware circuit description, providing designers with extreme flexibility in prototyping reconfigurable supercomputers. Reconfigurable supercomputing has shown significant promise in bioinformatics, text mining, and other data- and computation-intensive tasks involving small fixed-point integers |
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Unlocking the potential of field-programmable gate arrays requires compilers that translate algorithmic high-level language code into hardware circuits. The trident open source compeller translates C code to a hardware circuit description, providing designers with extreme flexibility in prototyping reconfigurable supercomputers. Reconfigurable supercomputing has shown significant promise in bioinformatics, text mining, and other data- and computation-intensive tasks involving small fixed-point integers
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