+# Rationale
+
+All Vector ISAs dating back fifty years have extensive and comprehensive
+Load and Store operations that go far beyond the capabilities of Scalar
+RISC or CISC processors, yet at their heart on an individual element
+basis may be found to be no different from RISC Scalar equivalents.
+
+The resource savings from Vector LD/ST are significant and stem from
+the fact that one single instruction can trigger a dozen (or in some
+microarchitectures such as Cray or NEC SX Aurora) hundreds of element-level Memory accesses.
+
+Additionally, and simply: if the Arithmetic side of an ISA supports
+Vector Operations, then in order to keep the ALUs 100% occupied the
+Memory infrastructure (and the ISA itself) correspondingly needs Vector
+Memory Operations as well.
+
+Vectorised Load and Store also presents an extra dimension (literally)
+which creates scenarios unique to Vector applications, that a Scalar
+(and even a SIMD) ISA simply never encounters. SVP64 endeavours to
+add such modes without changing the behaviour of the underlying Base
+(Scalar) v3.0B operations.
+
+# Modes overview
+