In the previous chapter, our major finding was that, in the current state of the art, code analyzers deal poorly with memory-carried dependencies. We found this flaw to be responsible, in our dataset, for a roughly $1.5\times$ increase in MAPE, and up to $2.6\times$ on the third quartile of error. The large impact of dependencies on the final runtime of a kernel is, in reality, not very surprising. In chapters~\ref{chap:palmed} and~\ref{chap:frontend}, we did not consider latency; hence, the only impact of an instruction was its throughput, each instruction being issued as soon as possible. Dependencies, however, force the processor to wait for some instructions' results before issuing some others; the \emph{latency} of an instruction becomes a critical factor. On Skylake, for instance, the instruction \lstxasm{add \%rax, \%rbx} has a latency of one full cycle. Thus, the kernel \begin{lstlisting}[language={[x86masm]Assembler}] add %rax, %rbx add %rbx, %rcx \end{lstlisting} executes, in steady state, in half a cycle without accounting for the dependency; yet these two instructions in isolation would take $1\,\sfrac{1}{4}$ cycles when accounting for the dependency. Some instructions still are more extreme; for instance, the \lstxasm{vfmadd*pd \%ymm0, \%ymm1, \%ymm2} family of instructions have a latency of four full cycles, while without dependencies, two can be issued every cycle. \medskip{} In the previous chapter, we also presented \gus{}, a dynamic code analyzer based on \qemu{}, which we found to be very effective to detect memory-carried dependencies and the slowdown they incur on the whole program. However, this solution results in a runtime increase of about two orders of magnitude, which may not be acceptable in many use cases. In this chapter, we instead present \staticdeps{}, a fully static analyzer able to detect memory-carried dependencies in many cases. We evaluate it by providing \uica{} with its analysis of dependencies, bringing it on-par with \gus{} on the full, non-pruned dataset of the previous chapter.