Light linear logics
Light linear logics are variants of linear logic characterizing complexity classes. They are designed by defining alternative exponential connectives, which induce a complexity bound on the cut-elimination procedure.
Light linear logics are one of the approaches used in implicit computational complexity, the research area studying the computational complexity of programs without referring to external measuring conditions or particular machine models.
Elementary linear logic
We present here the intuitionistic version of elementary linear logic, ELL. Moreover we restrict to the fragment without additive connectives.
The language of formulas is the same one as that of (multiplicative) ILL:
The sequent calculus rules are the same ones as for ILL, except for the rules
dealing with the exponential connectives:
We consider the function K(.,.) defined by:
Failed to parse (syntax error): K(0,n)=n, \quad K(k+1,n)=2^{K(k,n) .