Wavefront Threading Enables Effective High-Level Synthesis

May 29, 2024 Β· Declared Dead Β· πŸ› Proc. ACM Program. Lang.

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Authors Blake Pelton, Adam Sapek, Ken Eguro, Daniel Lo, Alessandro Forin, Matt Humphrey, Jinwen Xi, David Cox, Rajas Karandikar, Johannes de Fine Licht, Evgeny Babin, Adrian Caulfield, Doug Burger arXiv ID 2405.19514 Category cs.PL: Programming Languages Citations 4 Venue Proc. ACM Program. Lang. Last Checked 4 months ago
Abstract
Digital systems are growing in importance and computing hardware is growing more heterogeneous. Hardware design, however, remains laborious and expensive, in part due to the limitations of conventional hardware description languages (HDLs) like VHDL and Verilog. A longstanding research goal has been programming hardware like software, with high-level languages that can generate efficient hardware designs. This paper describes Kanagawa, a language that takes a new approach to combine the programmer productivity benefits of traditional High-Level Synthesis (HLS) approaches with the expressibility and hardware efficiency of Register-Transfer Level (RTL) design. The language's concise syntax, matched with a hardware design-friendly execution model, permits a relatively simple toolchain to map high-level code into efficient hardware implementations.
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