In many cases performance achievable with FPGAs on certain applications exceeds comparable ASIC designs or even super computers. 1 Introduction FPGAs are capable of achieving high performance on many application-specific tasks. A source code debugger has been implemented for this system. The assembler reads instruction definitions at assemble time, allowing the user to add new custom hardware functions which dasm can assemble correctly to an instruction stream the hardware executes. The compiler supports custom hardware capabilities of FPGA systems, as well as all constructs of C. Driving FPGA systems from ANSI C is possible using lcc (an ANSI C compiler) targeted at an FPGA system and dasm (a retargetable, flexible assembler). Reusing design effort across different applications requires a standard, flexible software environment. FPGA systems outperform many ASIC and super computer systems through effective use of the reconfigurable resource.
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