Multi-Level Intermediate Representation (MLIR) is a novel compiler
infrastructure that aims to provide modular and extensible components to
facilitate building domain specific compilers. However, since MLIR models
programs at an intermediate level of abstraction, and most extant frontends are
at a very high level of abstraction, the semantics and mechanics of the
fundamental transformations available in MLIR are difficult to investigate and
employ in and of themselves. To address these challenges, we have developed
\texttt{nelli}, a lightweight, Python-embedded, domain-specific, language for
generating MLIR code. \texttt{nelli} leverages existing MLIR infrastructure to
develop Pythonic syntax and semantics for various MLIR features. We describe
\texttt{nelli}'s design goals, discuss key details of our implementation, and
demonstrate how \texttt{nelli} enables easily defining and lowering compute
kernels to diverse hardware platforms