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The following commit(s) were added to refs/heads/asf-site by this push:
     new 9b7d3a1  Automated deployment: 4be215473d369381fafac63cd755ec84cc935629
9b7d3a1 is described below

commit 9b7d3a1d51fe7b42351de830a3f156d56530d199
Author: github-actions[bot] <github-actions[bot]@users.noreply.github.com>
AuthorDate: Wed Apr 7 01:07:43 2021 +0000

    Automated deployment: 4be215473d369381fafac63cd755ec84cc935629
---
 en-us/docs/1.2.1/user_doc/architecture-design.html  | 14 +++++++-------
 en-us/docs/1.2.1/user_doc/architecture-design.json  |  2 +-
 en-us/docs/1.3.1/user_doc/architecture-design.html  |  4 ++--
 en-us/docs/1.3.1/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.2.1/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.2.1/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.3.1/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.3.1/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.3.2/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.3.2/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.3.3/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.3.3/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.3.4/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.3.4/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/1.3.5/user_doc/architecture-design.html  |  2 +-
 zh-cn/docs/1.3.5/user_doc/architecture-design.json  |  2 +-
 zh-cn/docs/latest/user_doc/architecture-design.html |  2 +-
 zh-cn/docs/latest/user_doc/architecture-design.json |  2 +-
 18 files changed, 25 insertions(+), 25 deletions(-)

diff --git a/en-us/docs/1.2.1/user_doc/architecture-design.html 
b/en-us/docs/1.2.1/user_doc/architecture-design.html
index abf7dcb..62dfd3e 100644
--- a/en-us/docs/1.2.1/user_doc/architecture-design.html
+++ b/en-us/docs/1.2.1/user_doc/architecture-design.html
@@ -245,12 +245,12 @@ Interfaces include workflow creation, definition, query, 
modification, release,
 <pre><code class="language-java"> <span class="hljs-comment">/**
   * task log appender
   */</span>
- Public <span class="hljs-class"><span class="hljs-keyword">class</span> <span 
class="hljs-title">TaskLogAppender</span> <span 
class="hljs-keyword">extends</span> <span 
class="hljs-title">FileAppender</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
+ <span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span 
class="hljs-title">TaskLogAppender</span> <span 
class="hljs-keyword">extends</span> <span 
class="hljs-title">FileAppender</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
  
      ...
 
     <span class="hljs-meta">@Override</span>
-    <span class="hljs-function">Protected <span 
class="hljs-keyword">void</span> <span class="hljs-title">append</span><span 
class="hljs-params">(ILoggingEvent event)</span> </span>{
+    <span class="hljs-function"><span class="hljs-keyword">protected</span> 
<span class="hljs-keyword">void</span> <span 
class="hljs-title">append</span><span class="hljs-params">(ILoggingEvent 
event)</span> </span>{
 
         If (currentlyActiveFile == <span class="hljs-keyword">null</span>){
             currentlyActiveFile = getFile();
@@ -274,14 +274,14 @@ Interfaces include workflow creation, definition, query, 
modification, release,
 <pre><code class="language-java"> <span class="hljs-comment">/**
  * task log filter
  */</span>
-Public <span class="hljs-class"><span class="hljs-keyword">class</span> <span 
class="hljs-title">TaskLogFilter</span> <span 
class="hljs-keyword">extends</span> <span 
class="hljs-title">Filter</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
+<span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span class="hljs-title">TaskLogFilter</span> 
<span class="hljs-keyword">extends</span> <span 
class="hljs-title">Filter</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
 
     <span class="hljs-meta">@Override</span>
-    <span class="hljs-function">Public FilterReply <span 
class="hljs-title">decide</span><span class="hljs-params">(ILoggingEvent 
event)</span> </span>{
-        If (event.getThreadName().startsWith(<span 
class="hljs-string">&quot;TaskLogInfo-&quot;</span>)){
-            Return FilterReply.ACCEPT;
+    <span class="hljs-function"><span class="hljs-keyword">public</span> 
FilterReply <span class="hljs-title">decide</span><span 
class="hljs-params">(ILoggingEvent event)</span> </span>{
+        <span class="hljs-keyword">if</span> 
(event.getThreadName().startsWith(<span 
class="hljs-string">&quot;TaskLogInfo-&quot;</span>)){
+            <span class="hljs-keyword">return</span> FilterReply.ACCEPT;
         }
-        Return FilterReply.DENY;
+        <span class="hljs-keyword">return</span> FilterReply.DENY;
     }
 }
 </code></pre>
diff --git a/en-us/docs/1.2.1/user_doc/architecture-design.json 
b/en-us/docs/1.2.1/user_doc/architecture-design.json
index 59da04a..833bca9 100644
--- a/en-us/docs/1.2.1/user_doc/architecture-design.json
+++ b/en-us/docs/1.2.1/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": "<h2>Architecture Design</h2>\n<p>Before explaining the 
architecture of the schedule system, let us first understand the common nouns 
of the schedule system.</p>\n<h3>1.Noun 
Interpretation</h3>\n<p><strong>DAG:</strong> Full name Directed Acyclic 
Graph,referred to as DAG。Tasks in the workflow are assembled in the form of 
directed acyclic graphs, which are topologically traversed from nodes with zero 
indegrees of ingress until there are no successor nodes. For example, the fol 
[...]
+  "__html": "<h2>Architecture Design</h2>\n<p>Before explaining the 
architecture of the schedule system, let us first understand the common nouns 
of the schedule system.</p>\n<h3>1.Noun 
Interpretation</h3>\n<p><strong>DAG:</strong> Full name Directed Acyclic 
Graph,referred to as DAG。Tasks in the workflow are assembled in the form of 
directed acyclic graphs, which are topologically traversed from nodes with zero 
indegrees of ingress until there are no successor nodes. For example, the fol 
[...]
   "link": "/dist/en-us/docs/1.2.1/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/en-us/docs/1.3.1/user_doc/architecture-design.html 
b/en-us/docs/1.3.1/user_doc/architecture-design.html
index 7bed669..7dc442d 100644
--- a/en-us/docs/1.3.1/user_doc/architecture-design.html
+++ b/en-us/docs/1.3.1/user_doc/architecture-design.html
@@ -262,7 +262,7 @@ After the fault tolerance of ZooKeeper Master is completed, 
it is re-scheduled b
 <pre><code class="language-java"><span class="hljs-comment">/**
  * task log appender
  */</span>
-<span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span 
class="hljs-title">TaskLogAppender</span> <span 
class="hljs-keyword">extends</span> <span 
class="hljs-title">FileAppender</span>&lt;<span 
class="hljs-title">ILoggingEvent</span> </span>{
+<span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span 
class="hljs-title">TaskLogAppender</span> <span 
class="hljs-keyword">extends</span> <span 
class="hljs-title">FileAppender</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
 
     ...
 
@@ -295,7 +295,7 @@ After the fault tolerance of ZooKeeper Master is completed, 
it is re-scheduled b
 <pre><code class="language-java"><span class="hljs-comment">/**
 *  task log filter
 */</span>
-<span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span class="hljs-title">TaskLogFilter</span> 
<span class="hljs-keyword">extends</span> <span 
class="hljs-title">Filter</span>&lt;<span 
class="hljs-title">ILoggingEvent</span> </span>{
+<span class="hljs-keyword">public</span> <span class="hljs-class"><span 
class="hljs-keyword">class</span> <span class="hljs-title">TaskLogFilter</span> 
<span class="hljs-keyword">extends</span> <span 
class="hljs-title">Filter</span>&lt;<span 
class="hljs-title">ILoggingEvent</span>&gt; </span>{
 
    <span class="hljs-meta">@Override</span>
    <span class="hljs-function"><span class="hljs-keyword">public</span> 
FilterReply <span class="hljs-title">decide</span><span 
class="hljs-params">(ILoggingEvent event)</span> </span>{
diff --git a/en-us/docs/1.3.1/user_doc/architecture-design.json 
b/en-us/docs/1.3.1/user_doc/architecture-design.json
index 9b772ce..4d2d978 100644
--- a/en-us/docs/1.3.1/user_doc/architecture-design.json
+++ b/en-us/docs/1.3.1/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": "<h2>System Architecture Design</h2>\n<p>Before explaining the 
architecture of the scheduling system, let's first understand the commonly used 
terms of the scheduling 
system</p>\n<h3>1.Glossary</h3>\n<p><strong>DAG:</strong> The full name is 
Directed Acyclic Graph, referred to as DAG. Task tasks in the workflow are 
assembled in the form of a directed acyclic graph, and topological traversal is 
performed from nodes with zero degrees of entry until there are no subsequent 
nodes [...]
+  "__html": "<h2>System Architecture Design</h2>\n<p>Before explaining the 
architecture of the scheduling system, let's first understand the commonly used 
terms of the scheduling 
system</p>\n<h3>1.Glossary</h3>\n<p><strong>DAG:</strong> The full name is 
Directed Acyclic Graph, referred to as DAG. Task tasks in the workflow are 
assembled in the form of a directed acyclic graph, and topological traversal is 
performed from nodes with zero degrees of entry until there are no subsequent 
nodes [...]
   "link": "/dist/en-us/docs/1.3.1/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.2.1/user_doc/architecture-design.html 
b/zh-cn/docs/1.2.1/user_doc/architecture-design.html
index b340f69..ac1046e 100644
--- a/zh-cn/docs/1.2.1/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.2.1/user_doc/architecture-design.html
@@ -114,7 +114,7 @@ MasterServer服务启动时向Zookeeper注册临时节点,通过监听Zookeepe
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.2.1/user_doc/architecture-design.json 
b/zh-cn/docs/1.2.1/user_doc/architecture-design.json
index 46b6bad..ad5a9db 100644
--- a/zh-cn/docs/1.2.1/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.2.1/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.2.1/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.3.1/user_doc/architecture-design.html 
b/zh-cn/docs/1.3.1/user_doc/architecture-design.html
index b976415..70802f5 100644
--- a/zh-cn/docs/1.3.1/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.3.1/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.3.1/user_doc/architecture-design.json 
b/zh-cn/docs/1.3.1/user_doc/architecture-design.json
index e3b5f43..6393c53 100644
--- a/zh-cn/docs/1.3.1/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.3.1/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.1/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.3.2/user_doc/architecture-design.html 
b/zh-cn/docs/1.3.2/user_doc/architecture-design.html
index 1395fb4..b94e81b 100644
--- a/zh-cn/docs/1.3.2/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.3.2/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.3.2/user_doc/architecture-design.json 
b/zh-cn/docs/1.3.2/user_doc/architecture-design.json
index ff22d4a..864189e 100644
--- a/zh-cn/docs/1.3.2/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.3.2/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.2/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.3.3/user_doc/architecture-design.html 
b/zh-cn/docs/1.3.3/user_doc/architecture-design.html
index 9e939c7..43020b1 100644
--- a/zh-cn/docs/1.3.3/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.3.3/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.3.3/user_doc/architecture-design.json 
b/zh-cn/docs/1.3.3/user_doc/architecture-design.json
index 1b8feb8..0cae055 100644
--- a/zh-cn/docs/1.3.3/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.3.3/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.3/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.3.4/user_doc/architecture-design.html 
b/zh-cn/docs/1.3.4/user_doc/architecture-design.html
index faf425b..bd63166 100644
--- a/zh-cn/docs/1.3.4/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.3.4/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.3.4/user_doc/architecture-design.json 
b/zh-cn/docs/1.3.4/user_doc/architecture-design.json
index 3477e8c..f41712f 100644
--- a/zh-cn/docs/1.3.4/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.3.4/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.4/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/1.3.5/user_doc/architecture-design.html 
b/zh-cn/docs/1.3.5/user_doc/architecture-design.html
index adbc462..a255656 100644
--- a/zh-cn/docs/1.3.5/user_doc/architecture-design.html
+++ b/zh-cn/docs/1.3.5/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/1.3.5/user_doc/architecture-design.json 
b/zh-cn/docs/1.3.5/user_doc/architecture-design.json
index c291e21..f40420d 100644
--- a/zh-cn/docs/1.3.5/user_doc/architecture-design.json
+++ b/zh-cn/docs/1.3.5/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.5/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file
diff --git a/zh-cn/docs/latest/user_doc/architecture-design.html 
b/zh-cn/docs/latest/user_doc/architecture-design.html
index adbc462..a255656 100644
--- a/zh-cn/docs/latest/user_doc/architecture-design.html
+++ b/zh-cn/docs/latest/user_doc/architecture-design.html
@@ -124,7 +124,7 @@ Server基于netty提供监听服务。Worker</p>
 
<li>另外一个问题是如果Scheduler在Master上,虽然可以支持一个DAG中不同的任务运行在不同的机器上,但是会产生Master的过负载。如果Scheduler在Slave上,则一个DAG中所有的任务都只能在某一台机器上进行作业提交,则并行任务比较多的时候,Slave的压力可能会比较大。</li>
 </ul>
 <h6>去中心化</h6>
- <p align="center"
+ <p align="center">
    <img 
src="https://analysys.github.io/easyscheduler_docs_cn/images/decentralization.png";
 alt="去中心化"  width="50%" />
  </p>
 <ul>
diff --git a/zh-cn/docs/latest/user_doc/architecture-design.json 
b/zh-cn/docs/latest/user_doc/architecture-design.json
index c291e21..f40420d 100644
--- a/zh-cn/docs/latest/user_doc/architecture-design.json
+++ b/zh-cn/docs/latest/user_doc/architecture-design.json
@@ -1,6 +1,6 @@
 {
   "filename": "architecture-design.md",
-  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
+  "__html": 
"<h2>系统架构设计</h2>\n<p>在对调度系统架构说明之前,我们先来认识一下调度系统常用的名词</p>\n<h3>1.名词解释</h3>\n<p><strong>DAG:</strong>
 全称Directed Acyclic 
Graph,简称DAG。工作流中的Task任务以有向无环图的形式组装起来,从入度为零的节点进行拓扑遍历,直到无后继节点为止。举例如下图:</p>\n<p 
align=\"center\">\n  <img src=\"/img/dag_examples_cn.jpg\" alt=\"dag示例\"  
width=\"60%\" />\n  <p align=\"center\">\n        <em>dag示例</em>\n  
</p>\n</p>\n<p><strong>流程定义</strong>:通过拖拽任务节点并建立任务节点的关联所形成的可视化<strong>DAG</strong></p>\n<p><strong>流程实例</strong>:流程实例是流程定义的实例化,可以通过手动启动或定时调度生成,
 [...]
   "link": "/dist/zh-cn/docs/1.3.5/user_doc/architecture-design.html",
   "meta": {}
 }
\ No newline at end of file

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