-All aspects of the \gls{MTASK} system are shown: example applications, language design, implementation details, integration with \gls{ITASK}, and green computing facilities.
-When using \gls{MTASK} in conjunction with \gls{ITASK}, entire \gls{IOT} systems are programmed tierlessly from a single source, language, paradigm, high abstraction level, and type system.
-Many problems such as semantic friction; maintainability and robustness issues; and interoperation safety are mitigated when using tierless programming.
+All aspects of the \gls{MTASK} system are shown: example applications, language design, implementation details, integration with \gls{ITASK}, and green computing facilities such as automatic sleeping.
+
+Finally, tierless \gls{IOT} programming is compared to traditional tiered programming.
+In tierless programming frameworks, the size of the code and the number of required programming languages is reduced significantly.
+By using a single paradigm and a system-wide type system, tierless programming reduces problems such semantic friction; maintainability and robustness issues; and interoperation safety.