O problema (restante)

Question 1

Aqui está uma maneira mais "automatizada" deResposta de Zarkos, onde você não precisa desenhar todas as "linhas de passos" à mão. Para obter detalhes, dê uma olhada nos comentários no código.

\documentclass[border=2mm,many]{standalone}
\usepackage{pgfplots}
\usepackage{pgfplotstable}
    \pgfplotsset{compat=1.11}

\usepackage{filecontents}
    \begin{filecontents}{data.txt}
        Time core1 core2 core3 core4 mem
        0   7.847  19.51   18.389  18.943    400.90
        1   6.863  64.706  12.871  30        913.50
        2  10      88       0       0       1215.19
        3  57.576  39       0       0       1691.61
        4   0.99   99       0.99    0       1694.64
        5   0      40.594  60       0       1698.15
        6   0      96.939   3.03    0       1699.55
        7   0      50.495  48.515   0       1700.09
        8   0.99   53      47       0       1703.00
        9   0      28.283  69       3       1696.77
        10 31.313   0       0      67.677   1697.30
        11 15      84       1.01    2.941   2252.78
        12   0     15      14.141  71.717   2249.72
        13  31     27       6.931  37       2249.00
        14  2      13.725  60.606  28       2248.16
        15  9      34.343  41      19       2248.31
        16 32      41.414  25.743   0       2250.18
        17 26      33.663  20.408  21       2249.89
        18 23      13      40      25.253   2249.89
        19 47.525  18.182  22      12.121   2249.60
        20 34.694  25.253  22.772  16.832   2249.32
        21 22       0.99   42.574  37.374   2249.01
        22 12.871  24      12.121  56.436   2251.39
        23 17.172  15.152  49.02   20.202   2252.57
        24 27       5.051  32.653  36       2252.72
    \end{filecontents}

    \begin{filecontents}{data2.txt}
        steps
        0
        0.024
        10.127
        10.143
        21.634
        24.81
    \end{filecontents}

\begin{document}
    \begin{tikzpicture}

        % define `xmax' value
        % (it has to be a command because it is later needed outside of an
        %  axis environment to filter the `steps' elements, which are greater
        %  than `xmax')
        \def\xmax{24}

        % define color for the vertical lines for the steps
        \colorlet{step color}{black!60}


        % define here what both axis environments have in common
        % so you don't have to repeat this stuff at every axis
        \pgfplotsset{
            every axis/.append style={
                enlargelimits=false,
                width=15cm,
                height=8cm,
                xmin=0,
                xmax=\xmax,
                axis on top,
            },
        }

        \begin{axis}[
            area style,
            stack plots=y,
            xlabel={Time},
            ylabel={CPU usage},
            ymin=0,
            ymax=150,
            ytick distance=25,  % <-- to match ticks on both axis
        ]
            \foreach \i in {1,...,4}{
                \addplot table [x=Time,y=core\i]{data.txt} \closedcycle;
            }
        \end{axis}

            %%% collect all time stamps of the steps in `\allX'
            %%% it is later used in the axis environment to draw the lines
            %%% below the axis lines
            % store table for the steps
            \pgfplotstableread[header=true]{data2.txt}{\data}
            % store number of rows
            \pgfplotstablegetrowsof{\data}
                \pgfmathsetmacro{\rows}{\pgfplotsretval-1}
            % store first element to `\allX'
            \pgfplotstablegetelem{0}{steps}\of\data
                \pgfmathsetmacro{\first}{\pgfplotsretval}
            \def\allX{\first}
            % cycle through the rest of the list and append the time to
            % `\allX' if the value is smaller than `\xmax'
            \pgfplotsforeachungrouped \i in {1,...,\rows} {
                \pgfplotstablegetelem{\i}{steps}\of\data
                \pgfmathparse{(\pgfplotsretval<\xmax) ? 1 : 0}
                \ifdim \pgfmathresult pt>0pt
                    \edef\allX{\allX,\pgfplotsretval}
                \fi
            }

        \begin{axis}[
            axis y line*=right,% <---
            no markers,
            %
            %%% draw step labels
            % therefore use the data of the first `\addplot'
            xtick=data,
            % they should be drawn in the middle of two values
            x tick label as interval,
            % define how the label should look like
            xticklabel={
                % because indexing starts at 0 --> add 1
                \pgfmathparse{\ticknum + 1}
                Step \pgfmathprintnumber{\pgfmathresult}
            },
            % to not overlap the tick label and label of the first axis
            % shift these labels further down
            x tick label style={
                yshift=-8ex,
            },
            ymin=0,
            ymax=3000,
            % (you should also provide a label on the second y axis)
            ylabel=(\emph{replace me}),
            clip=false,% <---
            % in case steps are larger than `xmax' -->  force it to be `xmax'
            % (here you see how to extract the `xmin' and `xmax' values
            %  when you are _inside_ of an axis environment)
            restrict x to domain*=
                \pgfkeysvalueof{/pgfplots/xmin}:\pgfkeysvalueof{/pgfplots/xmax},
        ]

            % use `ybar interval' plot to fake some vertical lines
            % this also enables the easy printing of the `xticklabels'
            \addplot [
                draw=step color,
                ybar interval,
            ]
                table [x=steps,y expr=\pgfkeysvalueof{/pgfplots/ymax}] {data2.txt};

            % now draw the other lines regarding to the second y axis
            \addplot [very thick,draw=green] table [x=Time,y=mem] {data.txt};

            % plot the "extended" vertical lines below the axis
            % with the help of the above prepared `\allX' variable
            \foreach \x in \allX {
                \edef\temp{\noexpand%
                    \draw [color=step color] ([yshift=-3ex] \x,0) -- ++(0,-10ex);
                }\temp
            }

        \end{axis}
    \end{tikzpicture}
\end{document}

Answer

Aqui está uma maneira mais "automatizada" deResposta de Zarkos, onde você não precisa desenhar todas as "linhas de passos" à mão. Para obter detalhes, dê uma olhada nos comentários no código.

\documentclass[border=2mm,many]{standalone}
\usepackage{pgfplots}
\usepackage{pgfplotstable}
    \pgfplotsset{compat=1.11}

\usepackage{filecontents}
    \begin{filecontents}{data.txt}
        Time core1 core2 core3 core4 mem
        0   7.847  19.51   18.389  18.943    400.90
        1   6.863  64.706  12.871  30        913.50
        2  10      88       0       0       1215.19
        3  57.576  39       0       0       1691.61
        4   0.99   99       0.99    0       1694.64
        5   0      40.594  60       0       1698.15
        6   0      96.939   3.03    0       1699.55
        7   0      50.495  48.515   0       1700.09
        8   0.99   53      47       0       1703.00
        9   0      28.283  69       3       1696.77
        10 31.313   0       0      67.677   1697.30
        11 15      84       1.01    2.941   2252.78
        12   0     15      14.141  71.717   2249.72
        13  31     27       6.931  37       2249.00
        14  2      13.725  60.606  28       2248.16
        15  9      34.343  41      19       2248.31
        16 32      41.414  25.743   0       2250.18
        17 26      33.663  20.408  21       2249.89
        18 23      13      40      25.253   2249.89
        19 47.525  18.182  22      12.121   2249.60
        20 34.694  25.253  22.772  16.832   2249.32
        21 22       0.99   42.574  37.374   2249.01
        22 12.871  24      12.121  56.436   2251.39
        23 17.172  15.152  49.02   20.202   2252.57
        24 27       5.051  32.653  36       2252.72
    \end{filecontents}

    \begin{filecontents}{data2.txt}
        steps
        0
        0.024
        10.127
        10.143
        21.634
        24.81
    \end{filecontents}

\begin{document}
    \begin{tikzpicture}

        % define `xmax' value
        % (it has to be a command because it is later needed outside of an
        %  axis environment to filter the `steps' elements, which are greater
        %  than `xmax')
        \def\xmax{24}

        % define color for the vertical lines for the steps
        \colorlet{step color}{black!60}


        % define here what both axis environments have in common
        % so you don't have to repeat this stuff at every axis
        \pgfplotsset{
            every axis/.append style={
                enlargelimits=false,
                width=15cm,
                height=8cm,
                xmin=0,
                xmax=\xmax,
                axis on top,
            },
        }

        \begin{axis}[
            area style,
            stack plots=y,
            xlabel={Time},
            ylabel={CPU usage},
            ymin=0,
            ymax=150,
            ytick distance=25,  % <-- to match ticks on both axis
        ]
            \foreach \i in {1,...,4}{
                \addplot table [x=Time,y=core\i]{data.txt} \closedcycle;
            }
        \end{axis}

            %%% collect all time stamps of the steps in `\allX'
            %%% it is later used in the axis environment to draw the lines
            %%% below the axis lines
            % store table for the steps
            \pgfplotstableread[header=true]{data2.txt}{\data}
            % store number of rows
            \pgfplotstablegetrowsof{\data}
                \pgfmathsetmacro{\rows}{\pgfplotsretval-1}
            % store first element to `\allX'
            \pgfplotstablegetelem{0}{steps}\of\data
                \pgfmathsetmacro{\first}{\pgfplotsretval}
            \def\allX{\first}
            % cycle through the rest of the list and append the time to
            % `\allX' if the value is smaller than `\xmax'
            \pgfplotsforeachungrouped \i in {1,...,\rows} {
                \pgfplotstablegetelem{\i}{steps}\of\data
                \pgfmathparse{(\pgfplotsretval<\xmax) ? 1 : 0}
                \ifdim \pgfmathresult pt>0pt
                    \edef\allX{\allX,\pgfplotsretval}
                \fi
            }

        \begin{axis}[
            axis y line*=right,% <---
            no markers,
            %
            %%% draw step labels
            % therefore use the data of the first `\addplot'
            xtick=data,
            % they should be drawn in the middle of two values
            x tick label as interval,
            % define how the label should look like
            xticklabel={
                % because indexing starts at 0 --> add 1
                \pgfmathparse{\ticknum + 1}
                Step \pgfmathprintnumber{\pgfmathresult}
            },
            % to not overlap the tick label and label of the first axis
            % shift these labels further down
            x tick label style={
                yshift=-8ex,
            },
            ymin=0,
            ymax=3000,
            % (you should also provide a label on the second y axis)
            ylabel=(\emph{replace me}),
            clip=false,% <---
            % in case steps are larger than `xmax' -->  force it to be `xmax'
            % (here you see how to extract the `xmin' and `xmax' values
            %  when you are _inside_ of an axis environment)
            restrict x to domain*=
                \pgfkeysvalueof{/pgfplots/xmin}:\pgfkeysvalueof{/pgfplots/xmax},
        ]

            % use `ybar interval' plot to fake some vertical lines
            % this also enables the easy printing of the `xticklabels'
            \addplot [
                draw=step color,
                ybar interval,
            ]
                table [x=steps,y expr=\pgfkeysvalueof{/pgfplots/ymax}] {data2.txt};

            % now draw the other lines regarding to the second y axis
            \addplot [very thick,draw=green] table [x=Time,y=mem] {data.txt};

            % plot the "extended" vertical lines below the axis
            % with the help of the above prepared `\allX' variable
            \foreach \x in \allX {
                \edef\temp{\noexpand%
                    \draw [color=step color] ([yshift=-3ex] \x,0) -- ++(0,-10ex);
                }\temp
            }

        \end{axis}
    \end{tikzpicture}
\end{document}

Question 2

Editar:Esta solução em comparação com o seu MWE difere no seguinte:

no preâmbulo é adicionado \pgfplotsset{compat=1.13}, portanto, na notação do nó e das coordenadas do desenho podem ser omitidasaxis cs:
adicionadas são bibliotecas TikZ \usetikzlibrary{calc,positioning}para determinação de coordenadas de nós
os valores ymaxem ambos os eixos são alterados de 500 para 200 e de 8.000 para 3.000. Com isso, a parte interessante do gráfico fica mais alta e mais clara
em ambos os eixos são alterados o estilo do gráfico na forma que mais gostei :-)
nos segundos eixos ( ytickno lado direito do gráfico) é adicionada a opção clip=false. Com isso é possível desenhar nós e linhas abaixo do gráfico.
de acordo com os novos ymaxvalores são recalculadas as coordenadas para separar as etapas
na atribuição de etapas, presume-se que as etapas estejam entre linhas dadas, ou seja, há 4 etapas. Para etapas muito restritas, a etapa 2 sugere uma nova maneira de mostrar onde está

Com essas alterações, seu gráfico desejado se torna:

O código completo com locais de alterações assinados é:

\documentclass[border=5mm,many]{standalone}
\usepackage{pgfplots}
    \usepgfplotslibrary{colormaps}
    \pgfplotsset{compat=1.13}

    \usetikzlibrary{backgrounds,calc,positioning}
\usepackage{filecontents}

\begin{filecontents}{data.txt}
    Time core1 core2 core3 core4 mem
    0   7.847  19.51   18.389  18.943    400.90
    1   6.863  64.706  12.871  30        913.50
    2  10      88       0       0       1215.19
    3  57.576  39       0       0       1691.61
    4   0.99   99       0.99    0       1694.64
    5   0      40.594  60       0       1698.15
    6   0      96.939   3.03    0       1699.55
    7   0      50.495  48.515   0       1700.09
    8   0.99   53      47       0       1703.00
    9   0      28.283  69       3       1696.77
    10 31.313   0       0      67.677   1697.30
    11 15      84       1.01    2.941   2252.78
    12   0     15      14.141  71.717   2249.72
    13  31     27       6.931  37       2249.00
    14  2      13.725  60.606  28       2248.16
    15  9      34.343  41      19       2248.31
    16 32      41.414  25.743   0       2250.18
    17 26      33.663  20.408  21       2249.89
    18 23      13      40      25.253   2249.89
    19 47.525  18.182  22      12.121   2249.60
    20 34.694  25.253  22.772  16.832   2249.32
    21 22       0.99   42.574  37.374   2249.01
    22 12.871  24      12.121  56.436   2251.39
    23 17.172  15.152  49.02   20.202   2252.57
    24 27       5.051  32.653  36       2252.72
\end{filecontents}

\begin{filecontents}{data2.txt}
    steps
    0
    0.024
    10.127
    10.143
    21.634
    24.81
\end{filecontents}

\begin{document}
    \begin{tikzpicture}[scale=1,node distance=0mm]
        \begin{axis}[
%            axis y line=left,
%            axis x line=bottom,
            grid,% <---
            area style,
            enlarge x limits=false,% <---
            enlarge y limits=false,% <---
            width=15cm,
            height=8cm,
            stack plots=y,
            xlabel={Time},
            ylabel={CPU usage},
            ymax=150,
        ]
            \foreach \i in {1,...,4}{
                \addplot table [y index=\i,opacity=0.5]{data.txt} \closedcycle;
            }
        \end{axis}

        \begin{axis}[
%            axis y line=right,
%            axis x line=none,
            axis y line*=right,% <---
            grid,% <---
            enlarge x limits=false,
            enlarge y limits=false,
            width=15cm,
            height=8cm,
            fill=none,
            ymax=3000,
            clip=false,% <---
        ]
            \addplot[very thick,draw=green] table[y index=5]{data.txt};
            % The upper part of separators
            \draw
                ( 0.024,3000)-- +(0,-2200)% <---
                (10.127,3000)-- +(0,-2200)% <---
                (10.143,3000)-- +(0,-2200)% <---
                (21.634,3000)-- +(0,-2200)% <---
                (24.000,3000)-- +(0,-2200)% <---
            ;
            % nodes with steps names
            \node [above=of {$( 0.024,-300)!0.5!(10.127,-300)$}] {Step 1};% <---
            \node [above=of {$(10.127,-300)!0.5!(10.127,-300)$}] {Step 2};% <---
            \node [above=of {$(10.127,-300)!0.5!(21.634,-300)$}] {Step 3};% <---
            \node [above=of {$(21.634,-300)!0.5!(24.000,-300)$}] {Step 4};% <---
            % The lower part of separators
            \draw
                ( 0.024,150) -- (0.024,-300)% <---
                (10.127,150) |- ( 8.5,-50) -- ( 8.5,-300)% <---
                (10.143,150) |- (11.5,-50) -- (11.5,-300)% <---
                (21.634,150) -- (21.634,-300)% <---
                (24.000,150) -- (24.000,-300);% <---
        \end{axis}
    \end{tikzpicture}
\end{document}

Esperamos que esta solução sirva de base para o refinamento do gráfico ou para a adição de etapas ausentes (sua imagem mostra mais do que pode ser concluído a partir do seu MWE)

Answer

Editar:Esta solução em comparação com o seu MWE difere no seguinte:

no preâmbulo é adicionado \pgfplotsset{compat=1.13}, portanto, na notação do nó e das coordenadas do desenho podem ser omitidasaxis cs:
adicionadas são bibliotecas TikZ \usetikzlibrary{calc,positioning}para determinação de coordenadas de nós
os valores ymaxem ambos os eixos são alterados de 500 para 200 e de 8.000 para 3.000. Com isso, a parte interessante do gráfico fica mais alta e mais clara
em ambos os eixos são alterados o estilo do gráfico na forma que mais gostei :-)
nos segundos eixos ( ytickno lado direito do gráfico) é adicionada a opção clip=false. Com isso é possível desenhar nós e linhas abaixo do gráfico.
de acordo com os novos ymaxvalores são recalculadas as coordenadas para separar as etapas
na atribuição de etapas, presume-se que as etapas estejam entre linhas dadas, ou seja, há 4 etapas. Para etapas muito restritas, a etapa 2 sugere uma nova maneira de mostrar onde está

Com essas alterações, seu gráfico desejado se torna:

O código completo com locais de alterações assinados é:

\documentclass[border=5mm,many]{standalone}
\usepackage{pgfplots}
    \usepgfplotslibrary{colormaps}
    \pgfplotsset{compat=1.13}

    \usetikzlibrary{backgrounds,calc,positioning}
\usepackage{filecontents}

\begin{filecontents}{data.txt}
    Time core1 core2 core3 core4 mem
    0   7.847  19.51   18.389  18.943    400.90
    1   6.863  64.706  12.871  30        913.50
    2  10      88       0       0       1215.19
    3  57.576  39       0       0       1691.61
    4   0.99   99       0.99    0       1694.64
    5   0      40.594  60       0       1698.15
    6   0      96.939   3.03    0       1699.55
    7   0      50.495  48.515   0       1700.09
    8   0.99   53      47       0       1703.00
    9   0      28.283  69       3       1696.77
    10 31.313   0       0      67.677   1697.30
    11 15      84       1.01    2.941   2252.78
    12   0     15      14.141  71.717   2249.72
    13  31     27       6.931  37       2249.00
    14  2      13.725  60.606  28       2248.16
    15  9      34.343  41      19       2248.31
    16 32      41.414  25.743   0       2250.18
    17 26      33.663  20.408  21       2249.89
    18 23      13      40      25.253   2249.89
    19 47.525  18.182  22      12.121   2249.60
    20 34.694  25.253  22.772  16.832   2249.32
    21 22       0.99   42.574  37.374   2249.01
    22 12.871  24      12.121  56.436   2251.39
    23 17.172  15.152  49.02   20.202   2252.57
    24 27       5.051  32.653  36       2252.72
\end{filecontents}

\begin{filecontents}{data2.txt}
    steps
    0
    0.024
    10.127
    10.143
    21.634
    24.81
\end{filecontents}

\begin{document}
    \begin{tikzpicture}[scale=1,node distance=0mm]
        \begin{axis}[
%            axis y line=left,
%            axis x line=bottom,
            grid,% <---
            area style,
            enlarge x limits=false,% <---
            enlarge y limits=false,% <---
            width=15cm,
            height=8cm,
            stack plots=y,
            xlabel={Time},
            ylabel={CPU usage},
            ymax=150,
        ]
            \foreach \i in {1,...,4}{
                \addplot table [y index=\i,opacity=0.5]{data.txt} \closedcycle;
            }
        \end{axis}

        \begin{axis}[
%            axis y line=right,
%            axis x line=none,
            axis y line*=right,% <---
            grid,% <---
            enlarge x limits=false,
            enlarge y limits=false,
            width=15cm,
            height=8cm,
            fill=none,
            ymax=3000,
            clip=false,% <---
        ]
            \addplot[very thick,draw=green] table[y index=5]{data.txt};
            % The upper part of separators
            \draw
                ( 0.024,3000)-- +(0,-2200)% <---
                (10.127,3000)-- +(0,-2200)% <---
                (10.143,3000)-- +(0,-2200)% <---
                (21.634,3000)-- +(0,-2200)% <---
                (24.000,3000)-- +(0,-2200)% <---
            ;
            % nodes with steps names
            \node [above=of {$( 0.024,-300)!0.5!(10.127,-300)$}] {Step 1};% <---
            \node [above=of {$(10.127,-300)!0.5!(10.127,-300)$}] {Step 2};% <---
            \node [above=of {$(10.127,-300)!0.5!(21.634,-300)$}] {Step 3};% <---
            \node [above=of {$(21.634,-300)!0.5!(24.000,-300)$}] {Step 4};% <---
            % The lower part of separators
            \draw
                ( 0.024,150) -- (0.024,-300)% <---
                (10.127,150) |- ( 8.5,-50) -- ( 8.5,-300)% <---
                (10.143,150) |- (11.5,-50) -- (11.5,-300)% <---
                (21.634,150) -- (21.634,-300)% <---
                (24.000,150) -- (24.000,-300);% <---
        \end{axis}
    \end{tikzpicture}
\end{document}

Esperamos que esta solução sirva de base para o refinamento do gráfico ou para a adição de etapas ausentes (sua imagem mostra mais do que pode ser concluído a partir do seu MWE)

O problema (restante)

O problema (restante)

A resposta parcial

Algum gimp para mostrar a saída desejada

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