Tutorial on high-level synthesis
DAC '88 Proceedings of the 25th ACM/IEEE Design Automation Conference
Introduction to High-Level Synthesis
IEEE Design & Test
Combined control flow dominated and data flow dominated high-level synthesis
DAC '96 Proceedings of the 33rd annual Design Automation Conference
Comparing RTL and behavioral design methodologies in the case of a 2M-transistor ATM shaper
Proceedings of the 36th annual ACM/IEEE Design Automation Conference
Towards a holistic CAD platform for nanotechnologies
Microelectronics Journal
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Abstract: VHDL-based behavioral synthesis is appearing on the market but it still has to prove that it can have a significant impact. In the past, most applications for behavioral synthesis came from the DSP area and from the academic world. In contrast, this paper describes the results of an investigation and evaluation of several behavioral synthesis tools, carried out on recent designs of Alcatel-Bell, leading to a more detailed study of relevant industrial telecom non-DSP circuits, that were suitable for behavioral synthesis. From our expertise in telecom system hardware design, we can conclude that, taking into account that today world-wide about 6,000 licenses for logic synthesis are in use, there is distinctly a market potential for design-entries at higher levels of abstraction, due to the still increasing design complexities that can be expected in the near future. Behavioral synthesis can play a key role in this prospect, as stand-alone hardware CAD tool, or integrated in a global system design flow strategy for HW/SW-codesign. However, we experienced that efficient use of behavioral synthesis tools for telecom non-DSP circuits requires functionality that goes beyond simply generating an RTL-synthesizable description. This functionality is discussed, together with a system level design methodology for efficient use of behavioral synthesis tools.