X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/mpi-energy2.git/blobdiff_plain/2457bc79b2e872cd82b05ecf6b8a290c614cf43f..08b2589e5657136a0f3a605dbd076b559df777ae:/Heter_paper.tex?ds=inline diff --git a/Heter_paper.tex b/Heter_paper.tex index db8a304..a31c0fb 100644 --- a/Heter_paper.tex +++ b/Heter_paper.tex @@ -41,26 +41,17 @@ \newcommand{\MaxDist}{\mathit{Max}\Dist} \newcommand{\MinTcm}{\mathit{Min}\Tcm} \newcommand{\Ntrans}{\Xsub{N}{trans}} +\newcommand{\Pd}{\Xsub{P}{d}} \newcommand{\PdNew}{\Xsub{P}{dNew}} \newcommand{\PdOld}{\Xsub{P}{dOld}} -%\newcommand{\Pdyn}{\Xsub{P}{dyn}} -\newcommand{\Pd}{\Xsub{P}{d}} -%\newcommand{\PnormInv}{\Xsub{P}{NormInv}} \newcommand{\Pnorm}{\Xsub{P}{Norm}} -%\newcommand{\Pstates}{\Xsub{P}{states}} -%\newcommand{\Pstatic}{\Xsub{P}{static}} \newcommand{\Ps}{\Xsub{P}{s}} \newcommand{\Scp}{\Xsub{S}{cp}} \newcommand{\Sopt}{\Xsub{S}{opt}} \newcommand{\Tcm}{\Xsub{T}{cm}} -%\newcommand{\Tcomp}{\Xsub{T}{comp}} -\newcommand{\TcpOld}{\Xsub{T}{cpOld}} \newcommand{\Tcp}{\Xsub{T}{cp}} -%\newcommand{\TmaxCommOld}{\Xsub{T}{Max Comm Old}} -%\newcommand{\TmaxCompOld}{\Xsub{T}{Max Comp Old}} -%\newcommand{\Tmax}{\Xsub{T}{max}} +\newcommand{\TcpOld}{\Xsub{T}{cpOld}} \newcommand{\Tnew}{\Xsub{T}{New}} -%\newcommand{\Tnorm}{\Xsub{T}{Norm}} \newcommand{\Told}{\Xsub{T}{Old}} \begin{document} @@ -647,7 +638,7 @@ maximum distance between the energy curve and the performance curve is while \If{(not the first frequency)} \State $F_i \gets F_i+\Fdiff_i,~i=1,\dots,N.$ \EndIf - \State $\Told \gets max_{~i=1,\dots,N } (\Tcp_i+\Tcm_i)$ + \State $\Told \gets \max_{i=1,\dots,N} (\Tcp_i+\Tcm_i)$ % \State $\Eoriginal \gets \sum_{i=1}^{N}{( \Pd_i \cdot \Tcp_i)} +\sum_{i=1}^{N} {(\Ps_i \cdot \Told)}$ \State $\Eoriginal \gets \sum_{i=1}^{N}{( \Pd_i \cdot \Tcp_i + \Ps_i \cdot \Told)}$ \State $\Sopt_{i} \gets 1,~i=1,\dots,N. $ @@ -657,7 +648,7 @@ maximum distance between the energy curve and the performance curve is while \State $F_i \gets F_i - \Fdiff_i,~i=1,\dots,N.$ \State $S_i \gets \frac{\Fmax_i}{F_i},~i=1,\dots,N.$ \EndIf - \State $\Tnew \gets max_\textit{~i=1,\dots,N} (\Tcp_{i} \cdot S_{i}) + \MinTcm $ + \State $\Tnew \gets \max_{i=1,\dots,N} (\Tcp_{i} \cdot S_{i}) + \MinTcm $ % \State $\Ereduced \gets \sum_{i=1}^{N}{(S_i^{-2} \cdot \Pd_i \cdot \Tcp_i)} + \sum_{i=1}^{N} {(\Ps_i \cdot \rlap{\Tnew)}} $ \State $\Ereduced \gets \sum_{i=1}^{N}{(S_i^{-2} \cdot \Pd_i \cdot \Tcp_i + \Ps_i \cdot \rlap{\Tnew)}} $ \State $\Pnorm \gets \frac{\Told}{\Tnew}$