HMFlow: Accelerating FPGA Compilation with Hard Macros for Rapid Prototyping

The FPGA compilation process (synthesis, map, place, and route) is a time consuming task that severely limits designer productivity. Compilation time can be reduced by saving implementation data in the form of hard macros. Hard macros consist of previously synthesized, placed and routed circuits tha...

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Bibliographic Details
Published in2011 IEEE 19th Annual International Symposium on Field-Programmable Custom Computing Machines pp. 117 - 124
Main Authors Lavin, C, Padilla, M, Lamprecht, J, Lundrigan, P, Nelson, B, Hutchings, B
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.05.2011
Subjects
Acceleration
Algorithm design and analysis
Design automation
Field programmable gate arrays
FPGA
Generators
HMFlow
Open Source
Rapid Prototyping
RapidSmith
Routing
Software
XDL
Xilinx
Online AccessGet full text
ISBN9781612842776
1612842771
DOI10.1109/FCCM.2011.17

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Summary:The FPGA compilation process (synthesis, map, place, and route) is a time consuming task that severely limits designer productivity. Compilation time can be reduced by saving implementation data in the form of hard macros. Hard macros consist of previously synthesized, placed and routed circuits that enable rapid design assembly because of the native FPGA circuitry (primitives and nets)which they encapsulate. This work presents results from creating a new FPGA design flow based on hard macros called HMF low. HMF low has shown speedups of 10-50X over the fastest configuration of the Xilinx tools. Designed for rapid prototyping, HMF low achieves these speedups by only utilizing up to 50 percent of the resources on an FPGA and produces implementations that run 2-4X slower than those produced by Xilinx. These speedups are obtained on a wide range of benchmark designs with some exceeding 18,000 slices on a Virtex 4 LX200.
ISBN:9781612842776
1612842771
DOI:10.1109/FCCM.2011.17