Microsoft - HLS Hardware Design Patterns
High-Level Synthesis (HLS) using untimed C++ presents an elegant hardware abstraction framework for simplifying hardware design at the unit level. To construct large designs in untimed C++, the design needs to be broken down into isolated units connected via channels. The process of breaking down a design into units usually ends up being more than simply dividing modules, there are specific design considerations that need to be considered in this process in order to produce a design that will function correctly in a system after RTL is generated.
This presentation discusses some core considerations for partitioning a digital design and introduces a basic set of HLS Hardware Design Patterns that provide foundational and conceptual building blocks for large-scale designs. Generic design patterns for common design aspects such as interfaces, input, and output arbitration, configuration, and flushing will be covered.
Related resources
SLEC System Factsheet
SLEC System is a good fit for design teams verifying their RTL implementation by formally comparing it against functional SystemC/C++ models
Catapult High-Level Synthesis and Verification Fact Sheet
Industry leading C++/SystemC High-Level Synthesis with Low-Power estimation/optimization. Design checking, code and functional coverage verification plus formal make HLS more than mere “C to RTL.
StreamTV’s SeeCubic: Catapult HLS enables Ultra-D 3D without glasses
StreamTV's SeeCubic faced an impossible task: develop a real-time conversion IP block for a custom SoC without knowing the target technology. This IP was critical for their glasses-free 3D solution.