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From agoncha...@apache.org
Subject [13/39] incubator-ignite git commit: # sprint-2 - fixed devnotes file.
Date Mon, 16 Mar 2015 05:33:17 GMT
http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/data-grid/persistent-store.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/data-grid/persistent-store.md b/wiki/documentation/data-grid/persistent-store.md
deleted file mode 100644
index ce913a4..0000000
--- a/wiki/documentation/data-grid/persistent-store.md
+++ /dev/null
@@ -1,128 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-JCache specification comes with APIs for [javax.cache.inegration.CacheLoader](https://ignite.incubator.apache.org/jcache/1.0.0/javadoc/javax/cache/integration/CacheLoader.html) and [javax.cache.inegration.CacheWriter](https://ignite.incubator.apache.org/jcache/1.0.0/javadoc/javax/cache/integration/CacheWriter.html) which are used for **write-through** and **read-through** to and from an underlying persistent storage respectively (e.g. an RDBMS database like Oracle or MySQL, or NoSQL database like MongoDB or Couchbase).
-
-While Ignite allows you to configure the `CacheLoader` and `CacheWriter` separately, it is very awkward to implement a transactional store within 2 separate classes, as multiple `load` and `put` operations have to share the same connection within the same transaction. To mitigate that, Ignite provides `org.apache.ignite.cache.store.CacheStore` interface which extends both, `CacheLoader` and `CacheWriter`. 
-[block:callout]
-{
-  "type": "info",
-  "title": "Transactions",
-  "body": "`CacheStore` is fully transactional and automatically merges into the ongoing cache transaction."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "CacheStore"
-}
-[/block]
-`CacheStore` interface in Ignite is used to write and load data to and from the underlying data store. In addition to standard JCache loading and storing methods, it also introduces end-of-transaction demarcation and ability to bulk load a cache from the underlying data store.
-
-## loadCache()
-`CacheStore.loadCache()` method allows for cache loading even without passing all the keys that need to be loaded. It is generally used for hot-loading the cache on startup, but can be also called at any point after the cache has been started.
-
-`IgniteCache.loadCache()` method will delegate to `CacheStore.loadCache()` method on every cluster member that is running the cache. To invoke loading only on the local cluster node, use `IgniteCache.localLoadCache()` method.
-[block:callout]
-{
-  "type": "info",
-  "body": "In case of partitioned caches, keys that are not mapped to this node, either as primary or backups, will be automatically discarded by the cache."
-}
-[/block]
-## load(), write(), delete()
-Methods `load()`, `write()`, and `delete()` on the `CacheStore` are called whenever methods `get()`, `put()`, and `remove()` are called correspondingly on the `IgniteCache` interface. These methods are used to enable **read-through** and **write-through** behavior when working with individual cache entries.
-
-## loadAll(), writeAll(), deleteAll()
-Methods `loadAll()`, `writeAll()`, and `deleteAll()` on the `CacheStore` are called whenever methods `getAll()`, `putAll()`, and `removeAll()` are called correspondingly on the `IgniteCache` interface. These methods are used to enable **read-through** and **write-through** behavior when working with multiple cache entries and should generally be implemented using batch operations to provide better performance.
-[block:callout]
-{
-  "type": "info",
-  "title": "",
-  "body": "`CacheStoreAdapter` provides default implementation for `loadAll()`, `writeAll()`, and `deleteAll()` methods which simply iterates through all keys one by one."
-}
-[/block]
-## sessionEnd()
-Ignite has a concept of store session which may span more than one cache store operation. Sessions are especially useful when working with transactions.
-
-In case of `ATOMIC` caches, method `sessionEnd()` is called after completion of each `CacheStore` method. In case of `TRANSACTIONAL` caches, `sessionEnd()` is called at the end of each transaction, which allows to either commit or rollback multiple operations on the underlying persistent store.
-[block:callout]
-{
-  "type": "info",
-  "body": "`CacheStoreAdapater` provides default empty implementation of `sessionEnd()` method."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "CacheStoreSession"
-}
-[/block]
-The main purpose of cache store session is to hold the context between multiple store invocations whenever `CacheStore` is used in a cache transaction. For example, if using JDBC, you can store the ongoing database connection via `CacheStoreSession.attach()` method. You can then commit this connection in the `CacheStore#sessionEnd(boolean)` method.
-
-`CacheStoreSession` can be injected into your cache store implementation via `@GridCacheStoreSessionResource` annotation.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "CacheStore Example"
-}
-[/block]
-Below are a couple of different possible cache store implementations. Note that transactional implementation works with and without transactions.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "public class CacheJdbcPersonStore extends CacheStoreAdapter<Long, Person> {\n  // This mehtod is called whenever \"get(...)\" methods are called on IgniteCache.\n  @Override public Person load(Long key) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"select * from PERSONS where id=?\")) {\n        st.setLong(1, key);\n\n        ResultSet rs = st.executeQuery();\n\n        return rs.next() ? new Person(rs.getLong(1), rs.getString(2), rs.getString(3)) : null;\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheLoaderException(\"Failed to load: \" + key, e);\n    }\n  }\n\n  // This mehtod is called whenever \"put(...)\" methods are called on IgniteCache.\n  @Override public void write(Cache.Entry<Long, Person> entry) {\n    try (Connection conn = connection()) {\n      // Syntax of MERGE statement is database specific and should be adopted for your database.\n      // If your database does not supp
 ort MERGE statement then use sequentially update, insert statements.\n      try (PreparedStatement st = conn.prepareStatement(\n        \"merge into PERSONS (id, firstName, lastName) key (id) VALUES (?, ?, ?)\")) {\n        for (Cache.Entry<Long, Person> entry : entries) {\n          Person val = entry.getValue();\n          \n          st.setLong(1, entry.getKey());\n          st.setString(2, val.getFirstName());\n          st.setString(3, val.getLastName());\n          \n          st.executeUpdate();\n        }\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to write [key=\" + key + \", val=\" + val + ']', e);\n    }\n  }\n\n  // This mehtod is called whenever \"remove(...)\" methods are called on IgniteCache.\n  @Override public void delete(Object key) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"delete from PERSONS where id=?\")) {\n        st.setLong(1, (Long)key);\n\n      
   st.executeUpdate();\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to delete: \" + key, e);\n    }\n  }\n\n  // This mehtod is called whenever \"loadCache()\" and \"localLoadCache()\"\n  // methods are called on IgniteCache. It is used for bulk-loading the cache.\n  // If you don't need to bulk-load the cache, skip this method.\n  @Override public void loadCache(IgniteBiInClosure<Long, Person> clo, Object... args) {\n    if (args == null || args.length == 0 || args[0] == null)\n      throw new CacheLoaderException(\"Expected entry count parameter is not provided.\");\n\n    final int entryCnt = (Integer)args[0];\n\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"select * from PERSONS\")) {\n        try (ResultSet rs = st.executeQuery()) {\n          int cnt = 0;\n\n          while (cnt < entryCnt && rs.next()) {\n            Person person = new Person(rs.getLong(1), rs.getString(2),
  rs.getString(3));\n\n            clo.apply(person.getId(), person);\n\n            cnt++;\n          }\n        }\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheLoaderException(\"Failed to load values from cache store.\", e);\n    }\n  }\n\n  // Open JDBC connection.\n  private Connection connection() throws SQLException  {\n    // Open connection to your RDBMS systems (Oracle, MySQL, Postgres, DB2, Microsoft SQL, etc.)\n    // In this example we use H2 Database for simplification.\n    Connection conn = DriverManager.getConnection(\"jdbc:h2:mem:example;DB_CLOSE_DELAY=-1\");\n\n    conn.setAutoCommit(true);\n\n    return conn;\n  }\n}",
-      "language": "java",
-      "name": "jdbc non-transactional"
-    },
-    {
-      "code": "public class CacheJdbcPersonStore extends CacheStoreAdapter<Long, Person> {\n  /** Auto-injected store session. */\n  @CacheStoreSessionResource\n  private CacheStoreSession ses;\n\n  // Complete transaction or simply close connection if there is no transaction.\n  @Override public void sessionEnd(boolean commit) {\n    try (Connection conn = ses.getAttached()) {\n      if (conn != null && ses.isWithinTransaction()) {\n        if (commit)\n          conn.commit();\n        else\n          conn.rollback();\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to end store session.\", e);\n    }\n  }\n\n  // This mehtod is called whenever \"get(...)\" methods are called on IgniteCache.\n  @Override public Person load(Long key) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"select * from PERSONS where id=?\")) {\n        st.setLong(1, key);\n\n        ResultSet rs = st.execut
 eQuery();\n\n        return rs.next() ? new Person(rs.getLong(1), rs.getString(2), rs.getString(3)) : null;\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheLoaderException(\"Failed to load: \" + key, e);\n    }\n  }\n\n  // This mehtod is called whenever \"put(...)\" methods are called on IgniteCache.\n  @Override public void write(Cache.Entry<Long, Person> entry) {\n    try (Connection conn = connection()) {\n      // Syntax of MERGE statement is database specific and should be adopted for your database.\n      // If your database does not support MERGE statement then use sequentially update, insert statements.\n      try (PreparedStatement st = conn.prepareStatement(\n        \"merge into PERSONS (id, firstName, lastName) key (id) VALUES (?, ?, ?)\")) {\n        for (Cache.Entry<Long, Person> entry : entries) {\n          Person val = entry.getValue();\n          \n          st.setLong(1, entry.getKey());\n          st.setString(2, val.getFirstName());\n       
    st.setString(3, val.getLastName());\n          \n          st.executeUpdate();\n        }\n      }\n    }        \n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to write [key=\" + key + \", val=\" + val + ']', e);\n    }\n  }\n\n  // This mehtod is called whenever \"remove(...)\" methods are called on IgniteCache.\n  @Override public void delete(Object key) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"delete from PERSONS where id=?\")) {\n        st.setLong(1, (Long)key);\n\n        st.executeUpdate();\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to delete: \" + key, e);\n    }\n  }\n\n  // This mehtod is called whenever \"loadCache()\" and \"localLoadCache()\"\n  // methods are called on IgniteCache. It is used for bulk-loading the cache.\n  // If you don't need to bulk-load the cache, skip this method.\n  @Override public void loadCache(Ignit
 eBiInClosure<Long, Person> clo, Object... args) {\n    if (args == null || args.length == 0 || args[0] == null)\n      throw new CacheLoaderException(\"Expected entry count parameter is not provided.\");\n\n    final int entryCnt = (Integer)args[0];\n\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"select * from PERSONS\")) {\n        try (ResultSet rs = st.executeQuery()) {\n          int cnt = 0;\n\n          while (cnt < entryCnt && rs.next()) {\n            Person person = new Person(rs.getLong(1), rs.getString(2), rs.getString(3));\n\n            clo.apply(person.getId(), person);\n\n            cnt++;\n          }\n        }\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheLoaderException(\"Failed to load values from cache store.\", e);\n    }\n  }\n\n  // Opens JDBC connection and attaches it to the ongoing\n  // session if within a transaction.\n  private Connection connection() throws SQLException  {\
 n    if (ses.isWithinTransaction()) {\n      Connection conn = ses.getAttached();\n\n      if (conn == null) {\n        conn = openConnection(false);\n\n        // Store connection in the session, so it can be accessed\n        // for other operations within the same transaction.\n        ses.attach(conn);\n      }\n\n      return conn;\n    }\n    // Transaction can be null in case of simple load or put operation.\n    else\n      return openConnection(true);\n  }\n\n  // Opens JDBC connection.\n  private Connection openConnection(boolean autocommit) throws SQLException {\n    // Open connection to your RDBMS systems (Oracle, MySQL, Postgres, DB2, Microsoft SQL, etc.)\n    // In this example we use H2 Database for simplification.\n    Connection conn = DriverManager.getConnection(\"jdbc:h2:mem:example;DB_CLOSE_DELAY=-1\");\n\n    conn.setAutoCommit(autocommit);\n\n    return conn;\n  }\n}",
-      "language": "java",
-      "name": "jdbc transactional"
-    },
-    {
-      "code": "public class CacheJdbcPersonStore extends CacheStore<Long, Person> {\n  // Skip single operations and open connection methods.\n  // You can copy them from jdbc non-transactional or jdbc transactional examples.\n  ...\n  \n  // This mehtod is called whenever \"getAll(...)\" methods are called on IgniteCache.\n  @Override public Map<K, V> loadAll(Iterable<Long> keys) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\n        \"select firstName, lastName from PERSONS where id=?\")) {\n        Map<K, V> loaded = new HashMap<>();\n        \n        for (Long key : keys) {\n          st.setLong(1, key);\n          \n          try(ResultSet rs = st.executeQuery()) {\n            if (rs.next())\n              loaded.put(key, new Person(key, rs.getString(1), rs.getString(2));\n          }\n        }\n\n        return loaded;\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheLoaderException(\"Failed to loa
 dAll: \" + keys, e);\n    }\n  }\n  \n  // This mehtod is called whenever \"putAll(...)\" methods are called on IgniteCache.\n  @Override public void writeAll(Collection<Cache.Entry<Long, Person>> entries) {\n    try (Connection conn = connection()) {\n      // Syntax of MERGE statement is database specific and should be adopted for your database.\n      // If your database does not support MERGE statement then use sequentially update, insert statements.\n      try (PreparedStatement st = conn.prepareStatement(\n        \"merge into PERSONS (id, firstName, lastName) key (id) VALUES (?, ?, ?)\")) {\n        for (Cache.Entry<Long, Person> entry : entries) {\n          Person val = entry.getValue();\n          \n          st.setLong(1, entry.getKey());\n          st.setString(2, val.getFirstName());\n          st.setString(3, val.getLastName());\n          \n          st.addBatch();\n        }\n        \n\t\t\t\tst.executeBatch();\n      }\n    }\n    catch (SQLException e) {\n      th
 row new CacheWriterException(\"Failed to writeAll: \" + entries, e);\n    }\n  }\n  \n  // This mehtod is called whenever \"removeAll(...)\" methods are called on IgniteCache.\n  @Override public void deleteAll(Collection<Long> keys) {\n    try (Connection conn = connection()) {\n      try (PreparedStatement st = conn.prepareStatement(\"delete from PERSONS where id=?\")) {\n        for (Long key : keys) {\n          st.setLong(1, key);\n          \n          st.addBatch();\n        }\n        \n\t\t\t\tst.executeBatch();\n      }\n    }\n    catch (SQLException e) {\n      throw new CacheWriterException(\"Failed to deleteAll: \" + keys, e);\n    }\n  }\n}",
-      "language": "java",
-      "name": "jdbc bulk operations"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Configuration"
-}
-[/block]
-`CacheStore` interface can be set on `IgniteConfiguration` via a `Factory` in much the same way like `CacheLoader` and `CacheWriter` are being set.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n  ...\n    <property name=\"cacheConfiguration\">\n      <list>\n        <bean class=\"org.apache.ignite.configuration.CacheConfiguration\">\n          ...\n          <property name=\"cacheStoreFactory\">\n            <bean class=\"javax.cache.configuration.FactoryBuilder$SingletonFactory\">\n              <constructor-arg>\n                <bean class=\"foo.bar.MyPersonStore\">\n    \t\t\t\t\t\t\t...\n    \t\t\t\t\t\t</bean>\n    \t\t\t\t\t</constructor-arg>\n    \t\t\t\t</bean>\n\t    \t\t</property>\n    \t\t\t...\n    \t\t</bean>\n    \t</list>\n    </property>\n  ...\n</bean>",
-      "language": "xml"
-    },
-    {
-      "code": "IgniteConfiguration cfg = new IgniteConfiguration();\n\nCacheConfiguration<Long, Person> cacheCfg = new CacheConfiguration<>();\n\nCacheStore<Long, Person> store;\n\nstore = new MyPersonStore();\n\ncacheCfg.setCacheStoreFactory(new FactoryBuilder.SingletonFactory<>(store));\ncacheCfg.setReadThrough(true);\ncacheCfg.setWriteThrough(true);\n\ncfg.setCacheConfiguration(cacheCfg);\n\n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/data-grid/rebalancing.md
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diff --git a/wiki/documentation/data-grid/rebalancing.md b/wiki/documentation/data-grid/rebalancing.md
deleted file mode 100644
index 5ffe6a6..0000000
--- a/wiki/documentation/data-grid/rebalancing.md
+++ /dev/null
@@ -1,122 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-When a new node joins topology, existing nodes relinquish primary or back up ownership of some keys to the new node so that keys remain equally balanced across the grid at all times.
-
-If the new node becomes a primary or backup for some partition, it will fetch data from previous primary node for that partition or from one of the backup nodes for that partition. Once a partition is fully loaded to the new node, it will be marked obsolete on the old node and will be eventually evicted after all current transactions on that node are finished. Hence, for some short period of time, after topology changes, there can be a case when a cache will have more backup copies for a key than configured. However once rebalancing completes, extra backup copies will be removed from node caches.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Preload Modes"
-}
-[/block]
-Following preload modes are defined in `CachePreloadMode` enum.
-[block:parameters]
-{
-  "data": {
-    "0-0": "`SYNC`",
-    "h-0": "CachePreloadMode",
-    "h-1": "Description",
-    "0-1": "Synchronous rebalancing mode. Distributed caches will not start until all necessary data is loaded from other available grid nodes. This means that any call to cache public API will be blocked until rebalancing is finished.",
-    "1-1": "Asynchronous rebalancing mode. Distributed caches will start immediately and will load all necessary data from other available grid nodes in the background.",
-    "1-0": "`ASYNC`",
-    "2-1": "In this mode no rebalancing will take place which means that caches will be either loaded on demand from persistent store whenever data is accessed, or will be populated explicitly.",
-    "2-0": "`NONE`"
-  },
-  "cols": 2,
-  "rows": 3
-}
-[/block]
-By default, `ASYNC` preload mode is enabled. To use another mode, you can set the `preloadMode` property of `CacheConfiguration`, like so:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n    ...\n    <property name=\"cacheConfiguration\">\n        <bean class=\"org.apache.ignite.configuration.CacheConfiguration\">          \t\t\n          \t<!-- Set synchronous preloading. -->\n    \t\t\t\t<property name=\"preloadMode\" value=\"SYNC\"/>\n            ... \n        </bean\n    </property>\n</bean>",
-      "language": "xml"
-    },
-    {
-      "code": "CacheConfiguration cacheCfg = new CacheConfiguration();\n\ncacheCfg.setPreloadMode(CachePreloadMode.SYNC);\n\nIgniteConfiguration cfg = new IgniteConfiguration();\n\ncfg.setCacheConfiguration(cacheCfg);\n\n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Rebalance Message Throttling"
-}
-[/block]
-When re-balancer transfers data from one node to another, it splits the whole data set into batches and sends each batch in a separate message. If your data sets are large and there are a lot of messages to send, the CPU or network can get over-consumed. In this case it can be reasonable to wait between rebalance messages so that negative performance impact caused by preloading process is minimized. This time interval is controlled by `preloadThrottle` configuration property of  `CacheConfiguration`. Its default value is 0, which means that there will be no pauses between messages. Note that size of a single message can be also customized by `preloadBatchSize` configuration property (default size is 512K).
-
-For example, if you want preloader to send 2MB of data per message with 100 ms throttle interval, you should provide the following configuration: 
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n    ...\n    <property name=\"cacheConfiguration\">\n        <bean class=\"org.apache.ignite.configuration.CacheConfiguration\">          \t\t\n          \t<!-- Set batch size. -->\n    \t\t\t\t<property name=\"preloadBatchSize\" value=\"#{2 * 1024 * 1024}\"/>\n \n    \t\t\t\t<!-- Set throttle interval. -->\n    \t\t\t\t<property name=\"preloadThrottle\" value=\"100\"/>\n            ... \n        </bean\n    </property>\n</bean> ",
-      "language": "xml"
-    },
-    {
-      "code": "CacheConfiguration cacheCfg = new CacheConfiguration();\n\ncacheCfg.setPreloadBatchSize(2 * 1024 * 1024);\n            \ncacheCfg.setPreloadThrottle(100);\n\nIgniteConfiguration cfg = new IgniteConfiguration();\n\ncfg.setCacheConfiguration(cacheCfg);\n\n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Configuration"
-}
-[/block]
-Cache preloading behavior can be customized by optionally setting the following configuration properties:
-[block:parameters]
-{
-  "data": {
-    "h-0": "Setter Method",
-    "h-1": "Description",
-    "h-2": "Default",
-    "0-0": "`setPreloadMode`",
-    "0-1": "Preload mode for distributed cache. See Preload Modes section for details.",
-    "1-0": "`setPreloadPartitionedDelay`",
-    "1-1": "Preloading delay in milliseconds. See Delayed And Manual Preloading section for details.",
-    "2-0": "`setPreloadBatchSize`",
-    "2-1": "Size (in bytes) to be loaded within a single preload message. Preloading algorithm will split total data set on every node into multiple batches prior to sending data.",
-    "3-0": "`setPreloadThreadPoolSize`",
-    "3-1": "Size of preloading thread pool. Note that size serves as a hint and implementation may create more threads for preloading than specified here (but never less threads).",
-    "4-0": "`setPreloadThrottle`",
-    "4-1": "Time in milliseconds to wait between preload messages to avoid overloading of CPU or network. When preloading large data sets, the CPU or network can get over-consumed with preloading messages, which consecutively may slow down the application performance. This parameter helps tune the amount of time to wait between preload messages to make sure that preloading process does not have any negative performance impact. Note that application will continue to work properly while preloading is still in progress.",
-    "5-0": "`setPreloadOrder`",
-    "6-0": "`setPreloadTimeout`",
-    "5-1": "Order in which preloading should be done. Preload order can be set to non-zero value for caches with SYNC or ASYNC preload modes only. Preloading for caches with smaller preload order will be completed first. By default, preloading is not ordered.",
-    "6-1": "Preload timeout (ms).",
-    "0-2": "`ASYNC`",
-    "1-2": "0 (no delay)",
-    "2-2": "512K",
-    "3-2": "2",
-    "4-2": "0 (throttling disabled)",
-    "5-2": "0",
-    "6-2": "10000"
-  },
-  "cols": 3,
-  "rows": 7
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/data-grid/transactions.md
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diff --git a/wiki/documentation/data-grid/transactions.md b/wiki/documentation/data-grid/transactions.md
deleted file mode 100644
index 88a47a0..0000000
--- a/wiki/documentation/data-grid/transactions.md
+++ /dev/null
@@ -1,144 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite supports 2 modes for cache operation, *transactional* and *atomic*. In `transactional` mode you are able to group multiple cache operations in a transaction, while `atomic` mode supports multiple atomic operations, one at a time. `Atomic` mode is more light-weight and generally has better performance over `transactional` caches.
-
-However, regardless of which mode you use, as long as your cluster is alive, the data between different cluster nodes must remain consistent. This means that whichever node is being used to retrieve data, it will never get data that has been partially committed or that is inconsistent with other data.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "IgniteTransactions"
-}
-[/block]
-`IgniteTransactions` interface contains functionality for starting and completing transactions, as well as subscribing listeners or getting metrics.
-[block:callout]
-{
-  "type": "info",
-  "title": "Cross-Cache Transactions",
-  "body": "You can combine multiple operations from different caches into one transaction. Note that this allows to update caches of different types, like `REPLICATED` and `PARTITIONED` caches, in one transaction."
-}
-[/block]
-You can obtain an instance of `IgniteTransactions` as follows:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nIgniteTransactions transactions = ignite.transactions();",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-Here is an example of how transactions can be performed in Ignite:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "try (Transaction tx = transactions.txStart()) {\n    Integer hello = cache.get(\"Hello\");\n  \n    if (hello == 1)\n        cache.put(\"Hello\", 11);\n  \n    cache.put(\"World\", 22);\n  \n    tx.commit();\n}",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Two-Phase-Commit (2PC)"
-}
-[/block]
-Ignite utilizes 2PC protocol for its transactions with many one-phase-commit optimizations whenever applicable. Whenever data is updated within a transaction, Ignite will keep transactional state in a local transaction map until `commit()` is called, at which point, if needed, the data is transferred to participating remote nodes.
-
-For more information on how Ignite 2PC works, you can check out these blogs:
-  * [Two-Phase-Commit for Distributed In-Memory Caches](http://gridgain.blogspot.com/2014/09/two-phase-commit-for-distributed-in.html)
-  *  [Two-Phase-Commit for In-Memory Caches - Part II](http://gridgain.blogspot.com/2014/09/two-phase-commit-for-in-memory-caches.html) 
-  * [One-Phase-Commit - Fast Transactions For In-Memory Caches](http://gridgain.blogspot.com/2014/09/one-phase-commit-fast-transactions-for.html) 
-[block:callout]
-{
-  "type": "success",
-  "body": "Ignite provides fully ACID (**A**tomicity, **C**onsistency, **I**solation, **D**urability) compliant transactions that ensure guaranteed consistency.",
-  "title": "ACID Compliance"
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Optimistic and Pessimistic"
-}
-[/block]
-Whenever `TRANSACTIONAL` atomicity mode is configured, Ignite supports `OPTIMISTIC` and `PESSIMISTIC` concurrency modes for transactions. The main difference is that in `PESSIMISTIC` mode locks are acquired at the time of access, while in `OPTIMISTIC` mode locks are acquired during the `commit` phase.
-
-Ignite also supports the following isolation levels:
-  * `READ_COMMITED` - data is always fetched from the primary node, even if it already has been accessed within the transaction.
-  * `REPEATABLE_READ` - data is fetched form the primary node only once on first access and stored in the local transactional map. All consecutive access to the same data is local.
-  * `SERIALIZABLE` - when combined with `OPTIMISTIC` concurrency, transactions may throw `TransactionOptimisticException` in case of concurrent updates. 
-[block:code]
-{
-  "codes": [
-    {
-      "code": "IgniteTransactions txs = ignite.transactions();\n\n// Start transaction in pessimistic mode with repeatable read isolation level.\nTransaction tx = txs.txStart(TransactionConcurrency.OPTIMISTIC, TransactionIsolation.REPEATABLE_READ);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Atomicity Mode"
-}
-[/block]
-Ignite supports 2 atomicity modes defined in `CacheAtomicityMode` enum:
-  * `TRANSACTIONAL`
-  * `ATOMIC`
-
-`TRANSACTIONAL` mode enables fully ACID-compliant transactions, however, when only atomic semantics are needed, it is recommended that  `ATOMIC` mode is used for better performance.
-
-`ATOMIC` mode provides better performance by avoiding transactional locks, while still providing data atomicity and consistency. Another difference in `ATOMIC` mode is that bulk writes, such as `putAll(...)`and `removeAll(...)` methods are no longer executed in one transaction and can partially fail. In case of partial failure, `CachePartialUpdateException` will be thrown which will contain a list of keys for which the update failed.
-[block:callout]
-{
-  "type": "info",
-  "body": "Note that transactions are disabled whenever `ATOMIC` mode is used, which allows to achieve much higher performance and throughput in cases when transactions are not needed.",
-  "title": "Performance"
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Configuration"
-}
-[/block]
-Atomicity mode is defined in `CacheAtomicityMode` enum and can be configured via `atomicityMode` property of `CacheConfiguration`. 
-
-Default atomicity mode is `ATOMIC`.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n    ...\n    <property name=\"cacheConfiguration\">\n        <bean class=\"org.apache.ignite.configuration.CacheConfiguration\">\n          \t<!-- Set a cache name. -->\n   \t\t\t\t\t<property name=\"name\" value=\"myCache\"/>\n\n            <!-- Set atomicity mode, can be ATOMIC or TRANSACTIONAL. -->\n    \t\t\t\t<property name=\"atomicityMode\" value=\"TRANSACTIONAL\"/>\n            ... \n        </bean\n    </property>\n</bean>",
-      "language": "xml"
-    },
-    {
-      "code": "CacheConfiguration cacheCfg = new CacheConfiguration();\n\ncacheCfg.setName(\"cacheName\");\n\ncacheCfg.setAtomicityMode(CacheAtomicityMode.ATOMIC);\n\nIgniteConfiguration cfg = new IgniteConfiguration();\n\ncfg.setCacheConfiguration(cacheCfg);\n\n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/data-grid/web-session-clustering.md
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diff --git a/wiki/documentation/data-grid/web-session-clustering.md b/wiki/documentation/data-grid/web-session-clustering.md
deleted file mode 100644
index 9968ed1..0000000
--- a/wiki/documentation/data-grid/web-session-clustering.md
+++ /dev/null
@@ -1,253 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite In-Memory Data Fabric is capable of caching web sessions of all Java Servlet containers that follow Java Servlet 3.0 Specification, including Apache Tomcat, Eclipse Jetty, Oracle WebLogic, and others.
-
-Web sessions caching becomes useful when running a cluster of app servers. When running a web application in a servlet container, you may face performance and scalability problems. A single app server is usually not able to handle large volumes of traffic by itself. A common solution is to scale your web application across multiple clustered instances:
-[block:image]
-{
-  "images": [
-    {
-      "image": [
-        "https://www.filepicker.io/api/file/AlvqqQhZRym15ji5iztA",
-        "web_sessions_1.png",
-        "561",
-        "502",
-        "#7f9eaa",
-        ""
-      ]
-    }
-  ]
-}
-[/block]
-In the architecture shown above, High Availability Proxy (Load Balancer) distributes requests between multiple Application Server instances (App Server 1, App Server 2, ...), reducing the load on each instance and providing service availability if any of the instances fails. The problem here is web session availability. A web session keeps an intermediate logical state between requests by using cookies, and is normally bound to a particular application instance. Generally this is handled using sticky connections, ensuring that requests from the same user are handled by the same app server instance. However, if that instance fails, the session is lost, and the user will have to create it anew, loosing all the current unsaved state:
-[block:image]
-{
-  "images": [
-    {
-      "image": [
-        "https://www.filepicker.io/api/file/KtAyyVzrQ5CwhxODgEVV",
-        "web_sessions_2.png",
-        "561",
-        "502",
-        "#fb7661",
-        ""
-      ]
-    }
-  ]
-}
-[/block]
-A solution here is to use Ignite In-Memory Data Fabric web sessions cache - a distributed cache that maintains a copy of each created session, sharing them between all instances. If any of your application instances fails, Ignite will automatically restore the sessions, owned by the failed instance, from the distributed cache regardless of which app server the next request will be forwarded to. Moreover, with web session caching sticky connections become less important as the session is available on any app server the web request may be routed to.
-[block:image]
-{
-  "images": [
-    {
-      "image": [
-        "https://www.filepicker.io/api/file/8WyBbutWSm4PRYDNWRr7",
-        "web_sessions_3.png",
-        "561",
-        "502",
-        "#f73239",
-        ""
-      ]
-    }
-  ]
-}
-[/block]
-In this chapter we give a brief architecture overview of Ignite's web session caching functionality and instructions on how to configure your web application to enable web sessions caching.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Architecture"
-}
-[/block]
-To set up a distributed web sessions cache with Ignite, you normally configure your web application to start a Ignite node (embedded mode). When multiple application server instances are started, all Ignite nodes connect with each-other forming a distributed cache.
-[block:callout]
-{
-  "type": "info",
-  "body": "Note that not every Ignite caching node has to be running inside of application server. You can also start additional, standalone Ignite nodes and add them to the topology as well."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Replication Strategies"
-}
-[/block]
-There are several replication strategies you can use when storing sessions in Ignite In-Memory Data Fabric. The replication strategy is defined by the backing cache settings. In this section we briefly cover most common configurations.
-
-##Fully Replicated Cache
-This strategy stores copies of all sessions on each Ignite node, providing maximum availability. However with this approach you can only cache as many web sessions as can fit in memory on a single server. Additionally, the performance may suffer as every change of web session state now must be replicated to all other cluster nodes.
-
-To enable fully replicated strategy, set cacheMode of your backing cache to `REPLICATED`:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.CacheConfiguration\">\n    <!-- Cache mode. -->\n    <property name=\"cacheMode\" value=\"REPLICATED\"/>\n    ...\n</bean>",
-      "language": "xml"
-    }
-  ]
-}
-[/block]
-##Partitioned Cache with Backups
-In partitioned mode, web sessions are split into partitions and every node is responsible for caching only partitions assigned to that node. With this approach, the more nodes you have, the more data can be cached. New nodes can always be added on the fly to add more memory.
-[block:callout]
-{
-  "type": "info",
-  "body": "With `Partitioned` mode, redundancy is addressed by configuring number of backups for every web session being cached."
-}
-[/block]
-To enable partitioned strategy, set cacheMode of your backing cache to `PARTITIONED`, and set the number of backups with `backups` property of `CacheConfiguration`:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.CacheConfiguration\">\n    <!-- Cache mode. -->\n    <property name=\"cacheMode\" value=\"PARTITIONED\"/>\n    <property name=\"backups\" value=\"1\"/>\n</bean>",
-      "language": "xml"
-    }
-  ]
-}
-[/block]
-
-[block:callout]
-{
-  "type": "info",
-  "body": "See [Cache Distribution Models](doc:cache-distribution-models) for more information on different replication strategies available in Ignite."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Expiration and Eviction"
-}
-[/block]
-Stale sessions are cleaned up from cache automatically when they expire. However, if there are a lot of long-living sessions created, you may want to save memory by evicting dispensable sessions from cache when cache reaches a certain limit. This can be done by setting up cache eviction policy and specifying the maximum number of sessions to be stored in cache. For example, to enable automatic eviction with LRU algorithm and a limit of 10000 sessions, you will need to use the following cache configuration:
-
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.CacheConfiguration\">\n    <!-- Cache name. -->\n    <property name=\"name\" value=\"session-cache\"/>\n \n    <!-- Set up LRU eviction policy with 10000 sessions limit. -->\n    <property name=\"evictionPolicy\">\n        <bean class=\"org.apache.ignite.cache.eviction.lru.CacheLruEvictionPolicy\">\n            <property name=\"maxSize\" value=\"10000\"/>\n        </bean>\n    </property>\n    ...\n</bean>",
-      "language": "xml"
-    }
-  ]
-}
-[/block]
-
-[block:callout]
-{
-  "type": "info",
-  "body": "For more information about various eviction policies, see Eviction Policies section."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Configuration"
-}
-[/block]
-To enable web session caching in your application with Ignite, you need to:
-
-1\. **Add Ignite JARs** - Download Ignite and add the following jars to your application’s classpath (`WEB_INF/libs` folder):
-  * `ignite.jar`
-  * `ignite-web.jar`
-  * `ignite-log4j.jar`
-  * `ignite-spring.jar`
-
-Or, if you have a Maven based project, add the following to your application's pom.xml.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<dependency>\n      <groupId>org.ignite</groupId>\n      <artifactId>ignite-fabric</artifactId>\n      <version> ${ignite.version}</version>\n      <type>pom</type>\n</dependency>\n\n<dependency>\n    <groupId>org.ignite</groupId>\n    <artifactId>ignite-web</artifactId>\n    <version> ${ignite.version}</version>\n</dependency>\n\n<dependency>\n    <groupId>org.ignite</groupId>\n    <artifactId>ignite-log4j</artifactId>\n    <version>${ignite.version}</version>\n</dependency>\n\n<dependency>\n    <groupId>org.ignite</groupId>\n    <artifactId>ignite-spring</artifactId>\n    <version>${ignite.version}</version>\n</dependency>",
-      "language": "xml"
-    }
-  ]
-}
-[/block]
-Make sure to replace ${ignite.version} with actual Ignite version.
-
-2\. **Configure Cache Mode** - Configure Ignite cache in either `PARTITIONED` or `REPLICATED` mode (See [examples](#replication-strategies) above).
-
-3\. **Update `web.xml`** - Declare a context listener and web session filter in `web.xml`:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "...\n\n<listener>\n   <listener-class>org.apache.ignite.startup.servlet.IgniteServletContextListenerStartup</listener-class>\n</listener>\n\n<filter>\n   <filter-name>IgniteWebSessionsFilter</filter-name>\n   <filter-class>org.apache.ignite.cache.websession.IgniteWebSessionFilter</filter-class>\n</filter>\n\n<!-- You can also specify a custom URL pattern. -->\n<filter-mapping>\n   <filter-name>IgniteWebSessionsFilter</filter-name>\n   <url-pattern>/*</url-pattern>\n</filter-mapping>\n\n<!-- Specify Ignite configuration (relative to META-INF folder or Ignite_HOME). -->\n<context-param>\n   <param-name>IgniteConfigurationFilePath</param-name>\n   <param-value>config/default-config.xml </param-value>\n</context-param>\n\n<!-- Specify the name of Ignite cache for web sessions. -->\n<context-param>\n   <param-name>IgniteWebSessionsCacheName</param-name>\n   <param-value>partitioned</param-value>\n</context-param>\n\n...",
-      "language": "xml"
-    }
-  ]
-}
-[/block]
-On application start, the listener will start a Ignite node within your application, which will connect to other nodes in the network, forming a distributed cache.
-
-4\. **Set Eviction Policy (Optional)** - Set eviction policy for stale web sessions data lying in cache (See [example](#expiration-and-eviction) above).
-
-##Configuration Parameters
-`IgniteServletContextListenerStartup` has the following configuration parameters:
-[block:parameters]
-{
-  "data": {
-    "0-0": "`IgniteConfigurationFilePath`",
-    "0-1": "Path to Ignite configuration file (relative to `META_INF` folder or `IGNITE_HOME`).",
-    "0-2": "`/config/default-config.xml`",
-    "h-2": "Default",
-    "h-1": "Description",
-    "h-0": "Parameter Name"
-  },
-  "cols": 3,
-  "rows": 1
-}
-[/block]
-`IgniteWebSessionFilter` has the following configuration parameters:
-[block:parameters]
-{
-  "data": {
-    "h-0": "Parameter Name",
-    "h-1": "Description",
-    "h-2": "Default",
-    "0-0": "`IgniteWebSessionsGridName`",
-    "0-1": "Grid name for a started Ignite node. Should refer to grid in configuration file (if a grid name is specified in configuration).",
-    "0-2": "null",
-    "1-0": "`IgniteWebSessionsCacheName`",
-    "2-0": "`IgniteWebSessionsMaximumRetriesOnFail`",
-    "1-1": "Name of Ignite cache to use for web sessions caching.",
-    "1-2": "null",
-    "2-1": "Valid only for `ATOMIC` caches. Specifies number of retries in case of primary node failures.",
-    "2-2": "3"
-  },
-  "cols": 3,
-  "rows": 3
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Supported Containers"
-}
-[/block]
-Ignite has been officially tested with following servlet containers:
-  * Apache Tomcat 7
-  * Eclipse Jetty 9
-  * Apache Tomcat 6
-  * Oracle WebLogic >= 10.3.4
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-data-structures/atomic-types.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-data-structures/atomic-types.md b/wiki/documentation/distributed-data-structures/atomic-types.md
deleted file mode 100644
index 25446f5..0000000
--- a/wiki/documentation/distributed-data-structures/atomic-types.md
+++ /dev/null
@@ -1,114 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite supports distributed ***atomic long*** and ***atomic reference*** , similar to `java.util.concurrent.atomic.AtomicLong` and `java.util.concurrent.atomic.AtomicReference` respectively. 
-
-Atomics in Ignite are distributed across the cluster, essentially enabling performing atomic operations (such as increment-and-get or compare-and-set) with the same globally-visible value. For example, you could update the value of an atomic long on one node and read it from another node.
-
-##Features
-  * Retrieve current value.
-  * Atomically modify current value.
-  * Atomically increment or decrement current value.
-  * Atomically compare-and-set the current value to new value.
-
-Distributed atomic long and atomic reference can be obtained via `IgniteAtomicLong` and `IgniteAtomicReference` interfaces respectively, as shown below:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n \nIgniteAtomicLong atomicLong = ignite.atomicLong(\n    \"atomicName\", // Atomic long name.\n    0,        \t\t// Initial value.\n    false     \t\t// Create if it does not exist.\n)",
-      "language": "java",
-      "name": "AtomicLong"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Create an AtomicReference.\nIgniteAtomicReference<Boolean> ref = ignite.atomicReference(\n    \"refName\",  // Reference name.\n    \"someVal\",  // Initial value for atomic reference.\n    true        // Create if it does not exist.\n);",
-      "language": "java",
-      "name": "AtomicReference"
-    }
-  ]
-}
-[/block]
-
-Below is a usage example of `IgniteAtomicLong` and `IgniteAtomicReference`:
-
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Initialize atomic long.\nfinal IgniteAtomicLong atomicLong = ignite.atomicLong(\"atomicName\", 0, true);\n\n// Increment atomic long on local node.\nSystem.out.println(\"Incremented value: \" + atomicLong.incrementAndGet());\n",
-      "language": "java",
-      "name": "AtomicLong"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Initialize atomic reference.\nIgniteAtomicReference<String> ref = ignite.atomicReference(\"refName\", \"someVal\", true);\n\n// Compare old value to new value and if they are equal,\n//only then set the old value to new value.\nref.compareAndSet(\"WRONG EXPECTED VALUE\", \"someNewVal\"); // Won't change.",
-      "language": "java",
-      "name": "AtomicReference"
-    }
-  ]
-}
-[/block]
-All atomic operations provided by `IgniteAtomicLong` and `IgniteAtomicReference` are synchronous. The time an atomic operation will take depends on the number of nodes performing concurrent operations with the same instance of atomic long, the intensity of these operations, and network latency.
-[block:callout]
-{
-  "type": "info",
-  "title": "",
-  "body": "`IgniteCache` interface has `putIfAbsent()` and `replace()` methods, which provide the same CAS functionality as atomic types."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Atomic Configuration"
-}
-[/block]
-Atomics in Ignite can be configured via `atomicConfiguration` property of `IgniteConfiguration`. The following configuration parameters can be used :
-[block:parameters]
-{
-  "data": {
-    "0-0": "`setBackups(int)`",
-    "1-0": "`setCacheMode(CacheMode)`",
-    "2-0": "`setAtomicSequenceReserveSize(int)`",
-    "h-0": "Setter Method",
-    "h-1": "Description",
-    "h-2": "Default",
-    "0-1": "Set number of backups.",
-    "0-2": "0",
-    "1-1": "Set cache mode for all atomic types.",
-    "1-2": "`PARTITIONED`",
-    "2-1": "Sets the number of sequence values reserved for `IgniteAtomicSequence` instances.",
-    "2-2": "1000"
-  },
-  "cols": 3,
-  "rows": 3
-}
-[/block]
-##Example 
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n    ...\n    <property name=\"atomicConfiguration\">\n        <bean class=\"org.apache.ignite.configuration.AtomicConfiguration\">\n            <!-- Set number of backups. -->\n            <property name=\"backups\" value=\"1\"/>\n          \t\n          \t<!-- Set number of sequence values to be reserved. -->\n          \t<property name=\"atomicSequenceReserveSize\" value=\"5000\"/>\n        </bean>\n    </property>\n</bean>",
-      "language": "xml"
-    },
-    {
-      "code": "AtomicConfiguration atomicCfg = new AtomicConfiguration();\n \n// Set number of backups.\natomicCfg.setBackups(1);\n\n// Set number of sequence values to be reserved. \natomicCfg.setAtomicSequenceReserveSize(5000);\n\nIgniteConfiguration cfg = new IgniteConfiguration();\n  \n// Use atomic configuration in Ignite configuration.\ncfg.setAtomicConfiguration(atomicCfg);\n  \n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-data-structures/countdownlatch.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-data-structures/countdownlatch.md b/wiki/documentation/distributed-data-structures/countdownlatch.md
deleted file mode 100644
index f244e97..0000000
--- a/wiki/documentation/distributed-data-structures/countdownlatch.md
+++ /dev/null
@@ -1,41 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-If you are familiar with `java.util.concurrent.CountDownLatch` for synchronization between threads within a single JVM, Ignite provides `IgniteCountDownLatch` to allow similar behavior across cluster nodes. 
-
-A distributed CountDownLatch in Ignite can be created as follows:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nIgniteCountDownLatch latch = ignite.countDownLatch(\n    \"latchName\", // Latch name.\n    10,        \t // Initial count.\n    false        // Auto remove, when counter has reached zero.\n    true         // Create if it does not exist.\n);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-After the above code is executed, all nodes in the specified cache will be able to synchronize on the latch named - `latchName`. Below is an example of such synchronization:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nfinal IgniteCountDownLatch latch = ignite.countDownLatch(\"latchName\", 10, false, true);\n\n// Execute jobs.\nfor (int i = 0; i < 10; i++)\n    // Execute a job on some remote cluster node.\n    ignite.compute().run(() -> {\n        int newCnt = latch.countDown();\n\n        System.out.println(\"Counted down: newCnt=\" + newCnt);\n    });\n\n// Wait for all jobs to complete.\nlatch.await();",
-      "language": "java"
-    }
-  ]
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-data-structures/id-generator.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-data-structures/id-generator.md b/wiki/documentation/distributed-data-structures/id-generator.md
deleted file mode 100644
index 1793dfb..0000000
--- a/wiki/documentation/distributed-data-structures/id-generator.md
+++ /dev/null
@@ -1,57 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Distributed atomic sequence provided by `IgniteCacheAtomicSequence`  interface is similar to distributed atomic long, but its value can only go up. It also supports reserving a range of values to avoid costly network trips or cache updates every time a sequence must provide a next value. That is, when you perform `incrementAndGet()` (or any other atomic operation) on an atomic sequence, the data structure reserves ahead a range of values, which are guaranteed to be unique across the cluster for this sequence instance. 
-
-Here is an example of how atomic sequence can be created:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n \nIgniteAtomicSequence seq = ignite.atomicSequence(\n    \"seqName\", // Sequence name.\n    0,       // Initial value for sequence.\n    true     // Create if it does not exist.\n);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-Below is a simple usage example:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Initialize atomic sequence.\nfinal IgniteAtomicSequence seq = ignite.atomicSequence(\"seqName\", 0, true);\n\n// Increment atomic sequence.\nfor (int i = 0; i < 20; i++) {\n  long currentValue = seq.get();\n  long newValue = seq.incrementAndGet();\n  \n  ...\n}",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Sequence Reserve Size"
-}
-[/block]
-The key parameter of `IgniteAtomicSequence` is `atomicSequenceReserveSize` which is the number of sequence values reserved, per node .  When a node tries to obtain an instance of `IgniteAtomicSequence`, a number of sequence values will be reserved for that node and consequent increments of sequence will happen locally without communication with other nodes, until the next reservation has to be made. 
-
-The default value for `atomicSequenceReserveSize` is `1000`. This default setting can be changed by modifying the `atomicSequenceReserveSize` property of `AtomicConfiguration`. 
-[block:callout]
-{
-  "type": "info",
-  "body": "Refer to [Atomic Configuration](/docs/atomic-types#atomic-configuration) for more information on various atomic configuration properties, and examples on how to configure them."
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-data-structures/queue-and-set.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-data-structures/queue-and-set.md b/wiki/documentation/distributed-data-structures/queue-and-set.md
deleted file mode 100644
index 4bfe3a8..0000000
--- a/wiki/documentation/distributed-data-structures/queue-and-set.md
+++ /dev/null
@@ -1,133 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite In-Memory Data Fabric, in addition to providing standard key-value map-like storage, also provides an implementation of a fast Distributed Blocking Queue and Distributed Set.
-
-`IgniteQueue` and `IgniteSet`, an implementation of `java.util.concurrent.BlockingQueue` and `java.util.Set` interface respectively,  also support all operations from `java.util.Collection` interface. Both, queue and set can be created in either collocated or non-collocated mode.
-
-Below is an example of how to create a distributed queue and set.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nIgniteQueue<String> queue = ignite.queue(\n    \"queueName\", // Queue name.\n    0,          // Queue capacity. 0 for unbounded queue.\n    null         // Collection configuration.\n);",
-      "language": "java",
-      "name": "Queue"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nIgniteSet<String> set = ignite.set(\n    \"setName\", // Queue name.\n    null       // Collection configuration.\n);",
-      "language": "java",
-      "name": "Set"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Collocated vs. Non-Collocated Mode"
-}
-[/block]
-If you plan to create just a few queues or sets containing lots of data, then you would create them in non-collocated mode. This will make sure that about equal portion of each queue or set will be stored on each cluster node. On the other hand, if you plan to have many queues or sets, relatively small in size (compared to the whole cache), then you would most likely create them in collocated mode. In this mode all queue or set elements will be stored on the same cluster node, but about equal amount of queues/sets will be assigned to every node.
-A collocated queue and set can be created by setting the `collocated` property of `CollectionConfiguration`, like so:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nCollectionConfiguration colCfg = new CollectionConfiguration();\n\ncolCfg.setCollocated(true); \n\n// Create collocated queue.\nIgniteQueue<String> queue = ignite.queue(\"queueName\", 0, colCfg);\n\n// Create collocated set.\nIgniteSet<String> set = ignite.set(\"setName\", colCfg);",
-      "language": "java",
-      "name": "Queue"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nCollectionConfiguration colCfg = new CollectionConfiguration();\n\ncolCfg.setCollocated(true); \n\n// Create collocated set.\nIgniteSet<String> set = ignite.set(\"setName\", colCfg);",
-      "language": "text",
-      "name": "Set"
-    }
-  ]
-}
-[/block]
-
-[block:callout]
-{
-  "type": "info",
-  "title": "",
-  "body": "Non-collocated mode only makes sense for and is only supported for `PARTITIONED` caches."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Bounded Queues"
-}
-[/block]
-Bounded queues allow users to have many queues with maximum size which gives a better control over the overall cache capacity. They can be either *collocated* or *non-collocated*. When bounded queues are relatively small and used in collocated mode, all queue operations become extremely fast. Moreover, when used in combination with compute grid, users can collocate their compute jobs with cluster nodes on which queues are located to make sure that all operations are local and there is none (or minimal) data distribution. 
-
-Here is an example of how a job could be send directly to the node on which a queue resides:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nCollectionConfiguration colCfg = new CollectionConfiguration();\n\ncolCfg.setCollocated(true); \n\ncolCfg.setCacheName(\"cacheName\");\n\nfinal IgniteQueue<String> queue = ignite.queue(\"queueName\", 20, colCfg);\n \n// Add queue elements (queue is cached on some node).\nfor (int i = 0; i < 20; i++)\n    queue.add(\"Value \" + Integer.toString(i));\n \nIgniteRunnable queuePoller = new IgniteRunnable() {\n    @Override public void run() throws IgniteException {\n        // Poll is local operation due to collocation.\n        for (int i = 0; i < 20; i++)\n            System.out.println(\"Polled element: \" + queue.poll());\n    }\n};\n\n// Drain queue on the node where the queue is cached.\nignite.compute().affinityRun(\"cacheName\", \"queueName\", queuePoller);",
-      "language": "java",
-      "name": "Queue"
-    }
-  ]
-}
-[/block]
-
-[block:callout]
-{
-  "type": "success",
-  "body": "Refer to [Collocate Compute and Data](doc:collocate-compute-and-data) section for more information on collocating computations with data."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Cache Queues and Load Balancing"
-}
-[/block]
-Given that elements will remain in the queue until someone takes them, and that no two nodes should ever receive the same element from the queue, cache queues can be used as an alternate work distribution and load balancing approach within Ignite. 
-
-For example, you could simply add computations, such as instances of `IgniteRunnable` to a queue, and have threads on remote nodes call `IgniteQueue.take()`  method which will block if queue is empty. Once the `take()` method will return a job, a thread will process it and call `take()` again to get the next job. Given this approach, threads on remote nodes will only start working on the next job when they have completed the previous one, hence creating ideally balanced system where every node only takes the number of jobs it can process, and not more.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Collection Configuration"
-}
-[/block]
-Ignite collections can be in configured in API via `CollectionConfiguration` (see above examples). The following configuration parameters can be used:
-[block:parameters]
-{
-  "data": {
-    "h-0": "Setter Method",
-    "0-0": "`setCollocated(boolean)`",
-    "1-0": "`setCacheName(String)`",
-    "h-1": "Description",
-    "h-2": "Default",
-    "0-2": "false",
-    "0-1": "Sets collocation mode.",
-    "1-1": "Set name of the cache to store this collection.",
-    "1-2": "null"
-  },
-  "cols": 3,
-  "rows": 2
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-events/automatic-batching.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-events/automatic-batching.md b/wiki/documentation/distributed-events/automatic-batching.md
deleted file mode 100644
index f89ffe0..0000000
--- a/wiki/documentation/distributed-events/automatic-batching.md
+++ /dev/null
@@ -1,33 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite automatically groups or batches event notifications that are generated as a result of cache events occurring within the cluster.
-
-Each activity in cache can result in an event notification being generated and sent. For systems where cache activity is high, getting notified for every event could be network intensive, possibly leading to a decreased performance of cache operations in the grid.
-
-In Ignite, event notifications can be grouped together and sent in batches or timely intervals. Here is an example of how this can be done:
-
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n \n// Get an instance of named cache.\nfinal IgniteCache<Integer, String> cache = ignite.jcache(\"cacheName\");\n \n// Sample remote filter which only accepts events for keys\n// that are greater than or equal to 10.\nIgnitePredicate<CacheEvent> rmtLsnr = new IgnitePredicate<CacheEvent>() {\n    @Override public boolean apply(CacheEvent evt) {\n        System.out.println(\"Cache event: \" + evt);\n \n        int key = evt.key();\n \n        return key >= 10;\n    }\n};\n \n// Subscribe to cache events occuring on all nodes \n// that have the specified cache running. \n// Send notifications in batches of 10.\nignite.events(ignite.cluster().forCacheNodes(\"cacheName\")).remoteListen(\n\t\t10 /*batch size*/, 0 /*time intervals*/, false, null, rmtLsnr, EVTS_CACHE);\n \n// Generate cache events.\nfor (int i = 0; i < 20; i++)\n    cache.put(i, Integer.toString(i));",
-      "language": "java"
-    }
-  ]
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-events/events.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-events/events.md b/wiki/documentation/distributed-events/events.md
deleted file mode 100644
index 2c7f43a..0000000
--- a/wiki/documentation/distributed-events/events.md
+++ /dev/null
@@ -1,118 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite distributed events functionality allows applications to receive notifications when a variety of events occur in the distributed grid environment. You can automatically get notified for task executions, read, write or query operations occurring on local or remote nodes within the cluster.
-
-Distributed events functionality is provided via `IgniteEvents` interface. You can get an instance of `IgniteEvents` from Ignite as follows:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\nIgniteEvents evts = ignite.events();",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Subscribe for Events"
-}
-[/block]
-Listen methods can be used to receive notification for specified events happening in the cluster. These methods register a listener on local or remotes nodes for the specified events. Whenever the event occurs on the node, the listener is notified. 
-##Local Events
-`localListen(...)`  method registers event listeners with specified events on local node only.
-##Remote Events
-`remoteListen(...)` method registers event listeners with specified events on all nodes within the cluster or cluster group. Following is an example of each method:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Local listener that listenes to local events.\nIgnitePredicate<CacheEvent> locLsnr = evt -> {\n  System.out.println(\"Received event [evt=\" + evt.name() + \", key=\" + evt.key() + \n    \", oldVal=\" + evt.oldValue() + \", newVal=\" + evt.newValue());\n\n  return true; // Continue listening.\n};\n\n// Subscribe to specified cache events occuring on local node.\nignite.events().localListen(locLsnr,\n  EventType.EVT_CACHE_OBJECT_PUT,\n  EventType.EVT_CACHE_OBJECT_READ,\n  EventType.EVT_CACHE_OBJECT_REMOVED);\n\n// Get an instance of named cache.\nfinal IgniteCache<Integer, String> cache = ignite.jcache(\"cacheName\");\n\n// Generate cache events.\nfor (int i = 0; i < 20; i++)\n  cache.put(i, Integer.toString(i));\n",
-      "language": "java",
-      "name": "local listen"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Get an instance of named cache.\nfinal IgniteCache<Integer, String> cache = ignite.jcache(\"cacheName\");\n\n// Sample remote filter which only accepts events for keys\n// that are greater than or equal to 10.\nIgnitePredicate<CacheEvent> rmtLsnr = evt -> evt.<Integer>key() >= 10;\n\n// Subscribe to specified cache events on all nodes that have cache running.\nignite.events(ignite.cluster().forCacheNodes(\"cacheName\")).remoteListen(null, rmtLsnr,                                                                 EventType.EVT_CACHE_OBJECT_PUT,\n  EventType.EVT_CACHE_OBJECT_READ,\n  EventType.EVT_CACHE_OBJECT_REMOVED);\n\n// Generate cache events.\nfor (int i = 0; i < 20; i++)\n  cache.put(i, Integer.toString(i));\n",
-      "language": "java",
-      "name": "remote listen"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n \n// Get an instance of named cache.\nfinal IgniteCache<Integer, String> cache = ignite.jcache(\"cacheName\");\n \n// Sample remote filter which only accepts events for keys\n// that are greater than or equal to 10.\nIgnitePredicate<CacheEvent> rmtLsnr = new IgnitePredicate<CacheEvent>() {\n    @Override public boolean apply(CacheEvent evt) {\n        System.out.println(\"Cache event: \" + evt);\n \n        int key = evt.key();\n \n        return key >= 10;\n    }\n};\n \n// Subscribe to specified cache events occuring on \n// all nodes that have the specified cache running.\nignite.events(ignite.cluster().forCacheNodes(\"cacheName\")).remoteListen(null, rmtLsnr,                                                                 EVT_CACHE_OBJECT_PUT,                                      \t\t    \t\t   EVT_CACHE_OBJECT_READ,                                                     EVT_CACHE_OBJECT_REMOVED);\n \n// Generate cache events.\nfo
 r (int i = 0; i < 20; i++)\n    cache.put(i, Integer.toString(i));",
-      "language": "java",
-      "name": "java7 listen"
-    }
-  ]
-}
-[/block]
-In the above example `EVT_CACHE_OBJECT_PUT`,`EVT_CACHE_OBJECT_READ`, and `EVT_CACHE_OBJECT_REMOVED` are pre-defined event type constants defined in `EventType` interface.  
-[block:callout]
-{
-  "type": "info",
-  "body": "`EventType` interface defines various event type constants that can be used with listen methods. Refer to [javadoc](https://ignite.incubator.apache.org/releases/1.0.0/javadoc/) for complete list of these event types."
-}
-[/block]
-
-[block:callout]
-{
-  "type": "warning",
-  "body": "Event types passed in as parameter in  `localListen(...)` and `remoteListen(...)` methods must also be configured in `IgniteConfiguration`. See [configuration](#configuration) example below."
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Query for Events"
-}
-[/block]
-All events generated in the system are kept locally on the local node. `IgniteEvents` API provides methods to query for these events.
-##Local Events
-`localQuery(...)`  method queries for events on the local node using the passed in predicate filter. If all predicates are satisfied, a collection of events happening on the local node is returned.
-##Remote Events
-`remoteQuery(...)`  method asynchronously queries for events on remote nodes in this projection using the passed in predicate filter. This operation is distributed and hence can fail on communication layer and generally can take much longer than local event notifications. Note that this method will not block and will return immediately with future.
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Configuration"
-}
-[/block]
-To get notified of any tasks or cache events occurring within the cluster, `includeEventTypes` property of `IgniteConfiguration` must be enabled.  
-[block:code]
-{
-  "codes": [
-    {
-      "code": "<bean class=\"org.apache.ignite.configuration.IgniteConfiguration\">\n \t\t... \n    <!-- Enable cache events. -->\n    <property name=\"includeEventTypes\">\n        <util:constant static-field=\"org.apache.ignite.events.EventType.EVTS_CACHE\"/>\n    </property>\n  \t...\n</bean>",
-      "language": "xml"
-    },
-    {
-      "code": "IgniteConfiguration cfg = new IgniteConfiguration();\n\n// Enable cache events.\ncfg.setIncludeEventTypes(EVTS_CACHE);\n\n// Start Ignite node.\nIgnition.start(cfg);",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-By default, event notifications are turned off for performance reasons.
-[block:callout]
-{
-  "type": "success",
-  "body": "Since thousands of events per second are generated, it creates an additional load on the system. This can lead to significant performance degradation. Therefore, it is highly recommended to enable only those events that your application logic requires."
-}
-[/block]
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-file-system/igfs.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-file-system/igfs.md b/wiki/documentation/distributed-file-system/igfs.md
deleted file mode 100644
index ca11fd8..0000000
--- a/wiki/documentation/distributed-file-system/igfs.md
+++ /dev/null
@@ -1,18 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-We are currently adding documentation for the Ignite File System. In the mean time you can refer to the [javadoc](https://ignite.incubator.apache.org/releases/1.0.0/javadoc/org/apache/ignite/IgniteFs.html).
\ No newline at end of file

http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/f54fc36c/wiki/documentation/distributed-messaging/messaging.md
----------------------------------------------------------------------
diff --git a/wiki/documentation/distributed-messaging/messaging.md b/wiki/documentation/distributed-messaging/messaging.md
deleted file mode 100644
index 92871b9..0000000
--- a/wiki/documentation/distributed-messaging/messaging.md
+++ /dev/null
@@ -1,90 +0,0 @@
-<!--
-  Licensed to the Apache Software Foundation (ASF) under one or more
-  contributor license agreements.  See the NOTICE file distributed with
-  this work for additional information regarding copyright ownership.
-  The ASF licenses this file to You under the Apache License, Version 2.0
-  (the "License"); you may not use this file except in compliance with
-  the License.  You may obtain a copy of the License at
-
-       http://www.apache.org/licenses/LICENSE-2.0
-
-  Unless required by applicable law or agreed to in writing, software
-  distributed under the License is distributed on an "AS IS" BASIS,
-  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-  See the License for the specific language governing permissions and
-  limitations under the License.
--->
-
-Ignite distributed messaging allows for topic based cluster-wide communication between all nodes. Messages with a specified message topic can be distributed to all or sub-group of nodes that have subscribed to that topic. 
-
-Ignite messaging is based on publish-subscribe paradigm where publishers and subscribers  are connected together by a common topic. When one of the nodes sends a message A for topic T, it is published on all nodes that have subscribed to T.
-[block:callout]
-{
-  "type": "info",
-  "body": "Any new node joining the cluster automatically gets subscribed to all the topics that other nodes in the cluster (or [cluster group](/docs/cluster-groups)) are subscribed to."
-}
-[/block]
-Distributed Messaging functionality in Ignite is provided via `IgniteMessaging` interface. You can get an instance of `IgniteMessaging`, like so:
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Messaging instance over this cluster.\nIgniteMessaging msg = ignite.message();\n\n// Messaging instance over given cluster group (in this case, remote nodes).\nIgniteMessaging rmtMsg = ignite.message(ignite.cluster().forRemotes());",
-      "language": "java"
-    }
-  ]
-}
-[/block]
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Publish Messages"
-}
-[/block]
-Send methods help sending/publishing messages with a specified message topic to all nodes. Messages can be sent in *ordered* or *unordered* manner.
-##Ordered Messages
-`sendOrdered(...)` method can be used if you want to receive messages in the order they were sent. A timeout parameter is passed to specify how long a message will stay in the queue to wait for messages that are supposed to be sent before this message. If the timeout expires, then all the messages that have not yet arrived for a given topic on that node will be ignored.
-##Unordered Messages
-`send(...)` methods do not guarantee message ordering. This means that, when you sequentially send message A and message B, you are not guaranteed that the target node first receives A and then B.
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Subscribe for Messages"
-}
-[/block]
-Listen methods help to listen/subscribe for messages. When these methods are called, a listener with specified message topic is registered on  all (or sub-group of ) nodes to listen for new messages. With listen methods, a predicate is passed that returns a boolean value which tells the listener to continue or stop listening for new messages. 
-##Local Listen
-`localListen(...)` method registers a message listener with specified topic only on the local node and listens for messages from any node in *this* cluster group.
-##Remote Listen
-`remoteListen(...)` method registers message listeners with specified topic on all nodes in *this* cluster group and listens for messages from any node in *this* cluster group . 
-
-
-[block:api-header]
-{
-  "type": "basic",
-  "title": "Example"
-}
-[/block]
-Following example shows message exchange between remote nodes.
-[block:code]
-{
-  "codes": [
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n \nIgniteMessaging rmtMsg = ignite.message(ignite.cluster().forRemotes());\n \n// Add listener for unordered messages on all remote nodes.\nrmtMsg.remoteListen(\"MyOrderedTopic\", (nodeId, msg) -> {\n    System.out.println(\"Received ordered message [msg=\" + msg + \", from=\" + nodeId + ']');\n \n    return true; // Return true to continue listening.\n});\n \n// Send ordered messages to remote nodes.\nfor (int i = 0; i < 10; i++)\n    rmtMsg.sendOrdered(\"MyOrderedTopic\", Integer.toString(i));",
-      "language": "java",
-      "name": "Ordered Messaging"
-    },
-    {
-      "code": " Ignite ignite = Ignition.ignite();\n \nIgniteMessaging rmtMsg = ignite.message(ignite.cluster().forRemotes());\n \n// Add listener for unordered messages on all remote nodes.\nrmtMsg.remoteListen(\"MyUnOrderedTopic\", (nodeId, msg) -> {\n    System.out.println(\"Received unordered message [msg=\" + msg + \", from=\" + nodeId + ']');\n \n    return true; // Return true to continue listening.\n});\n \n// Send unordered messages to remote nodes.\nfor (int i = 0; i < 10; i++)\n    rmtMsg.send(\"MyUnOrderedTopic\", Integer.toString(i));",
-      "language": "java",
-      "name": "Unordered Messaging"
-    },
-    {
-      "code": "Ignite ignite = Ignition.ignite();\n\n// Get cluster group of remote nodes.\nClusterGroup rmtPrj = ignite.cluster().forRemotes();\n\n// Get messaging instance over remote nodes.\nIgniteMessaging msg = ignite.message(rmtPrj);\n\n// Add message listener for specified topic on all remote nodes.\nmsg.remoteListen(\"myOrderedTopic\", new IgniteBiPredicate<UUID, String>() {\n    @Override public boolean apply(UUID nodeId, String msg) {\n        System.out.println(\"Received ordered message [msg=\" + msg + \", from=\" + nodeId + ']');\n\n        return true; // Return true to continue listening.\n    }\n});\n\n// Send ordered messages to all remote nodes.\nfor (int i = 0; i < 10; i++)\n    msg.sendOrdered(\"myOrderedTopic\", Integer.toString(i), 0);",
-      "language": "java",
-      "name": "java7 ordered"
-    }
-  ]
-}
-[/block]
\ No newline at end of file


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