设计自定义计算硬件的高级综合

Proceedings. IEEE Symposium on FPGAs for Custom Computing Machines (Cat. No.98TB100251) Pub Date : 1998-04-15 DOI:10.1109/FPGA.1998.707938

Goran Doncev, M. Leeser, Shantanu Tarafdar

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引用次数: 12

摘要

我们将高阶综合(High Level Synthesis, HLS)应用于FPGA计算系统的设计。HLS允许使用寄存器传输级别(RTL)技术无法实现的设计空间探索级别。HLS工具的使用使设计师能够以高质量的结果和快速的周转时间原型化他们的设计。我们的设计流程使用Synopsys行为编译器(BC)，然后进行逻辑合成，将设计映射到Altera RIPP10板上。我们通过一个案例研究来说明我们的方法:从高级行为描述到在RIPP10板上实现DTMF接收器的设计。我们能够设计工作硬件，满足我们的延迟限制，并实现90%的可用fpga利用率。最终的设计大约有90000个栅极。

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High level synthesis for designing custom computing hardware

We apply High Level Synthesis (HLS) to the design of FPGA based computing systems. HLS allows for a level of design space exploration unrealizable with Register Transfer Level (RTL) techniques. The use of HLS tools allow designers to prototype their designs with high quality results and fast turn around times. Our design flow makes use of Synopsys Behavioral Compiler (BC) followed by logic synthesis to map designs onto the Altera RIPP10 board. We illustrate our approach with a case study: the design of a DTMF receiver from a high-level behavioral description down to implementation on the RIPP10 board. We were able to design working hardware, meet our delay constraints and achieve 90% utilization of the available FPGAs. The final design had approximately 90000 gate equivalents.

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Proceedings. IEEE Symposium on FPGAs for Custom Computing Machines (Cat. No.98TB100251)

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