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Update README.md

Bernard Xiong 9 lat temu
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      README.md

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README.md

@@ -3,25 +3,28 @@
 [![Build Status](https://travis-ci.org/RT-Thread/rt-thread.svg)](https://travis-ci.org/RT-Thread/rt-thread)
 [![Gitter](https://badges.gitter.im/Join Chat.svg)](https://gitter.im/RT-Thread/rt-thread?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)
 
-RT-Thread is an open source real-time operating system for embedded devices from China. RT-Thread RTOS is a scalable real-time operating system: a tiny kernel for ARM Cortex-M0, Cortex-M3/4, or a full feature system in ARM Cortex-A8, ARM Cortex-A9 DualCore etc. 
+RT-Thread is an open source real-time operating system for embedded devices from China. RT-Thread RTOS is a scalable real-time operating system: a tiny kernel for ARM Cortex-M0, Cortex-M3/4/7, or a rich feature system like ARM Cortex-A8, ARM Cortex-A9 DualCore etc. 
 
 ## Overview ##
 
 RT-Thread RTOS like a traditional real-time operating system. The kernel has real-time multi-task scheduling, semaphore, mutex, mail box, message queue etc. However, it has two different things:
 
 * Device Driver;
-* Component. 
+* Component;
+* Application Module
 
-The device driver is more like a driver framework, UART, SPI, USB device/host, EMAC, MTD NAND etc. The developer can easily add low level driver and board configuration, then he/she can use lots of features. 
+The device driver is more like a driver framework, UART, IIC, SPI, SDIO, USB device/host, EMAC, MTD NAND etc. The developer can easily add low level driver and board configuration, then he/she can use lots of features. 
 
-The Component is a software concept upon RT-Thread kernel, for example a shell (finsh shell), virtual file system (FAT, YAFFS, UFFS, ROM/RAM file system etc), TCP/IP protocol stack (lwIP), POSIX interface etc. One component must be a directory under RT-Thread/Components and one component can be descripted by a SConscript file (then be compiled and linked into the system).
+The Component is a software concept upon RT-Thread kernel, for example a shell (finsh/msh shell), virtual file system (FAT, YAFFS, UFFS, ROM/RAM file system etc), TCP/IP protocol stack (lwIP), POSIX (thread) interface etc. One component must be a directory under RT-Thread/Components and one component can be descripted by a SConscript file (then be compiled and linked into the system).
+
+The Appliation Module, or User Applicaion (UA) is a dyanmic loaded module, it can be compiled standalone without Kernel. Each UA has its own object container to manage thread/semaphore/kernel object which was created or initialized inside this UA. More information about UA, please visit another [git repo](https://github.com/RT-Thread/rtthread-apps). 
 
 ## Board Support Package ##
 
 RT-Thread RTOS can support many architectures:
 
 * ARM Cortex-M0
-* ARM Cortex-M3/M4
+* ARM Cortex-M3/M4/7
 * ARM Cortex-R4
 * ARM Cortex-A8/A9
 * ARM920T/ARM926 etc
@@ -37,32 +40,30 @@ As a special exception, including RT-Thread RTOS header files in a file, instant
 
 ## Usage ##
 
-RT-Thread RTOS uses [scons](http://www.scons.org) as its building system. Therefore, please install scons and Python 2.7 firstly. 
-
-So far, the RT-Thread scons building system support the command line compiling or generate some IDE's project. There are some option varaibles in the scons building script:
+RT-Thread RTOS uses [scons](http://www.scons.org) as building system. Therefore, please install scons and Python 2.7 firstly. 
 
-In rtconfig.py file:
+So far, the RT-Thread scons building system support the command line compile or generate some IDE's project. There are some option varaibles in the scons building script (rtconfig.py):
 
 * ```CROSS_TOOL``` the compiler which you want to use, gcc/keil/iar. 
 * ```EXEC_PATH``` the path of compiler. 
 
 In SConstruct file:
 
-```RTT_ROOT``` This variable is the root directory of RT-Thread RTOS. If you build the porting in the bsp directory, you can use the default value. Also, you can set the root directory in ```RTT_ROOT``` environment variable.
+```RTT_ROOT``` This variable is the root directory of RT-Thread RTOS. If you build the porting in the bsp directory, you can use the default setting. Also, you can set the root directory in ```RTT_ROOT``` environment variable and not modify SConstruct files.
 
 When you set these variables correctly, you can use command:
 
     scons 
-    
-  under BSP directory to simplely compile RT-Thread RTOS.
 
-If you want to generate the IDE's project file, firstly you should change the ```RTT_CC``` in the rtconfig.py file. Then use command:
+under BSP directory to simplely compile RT-Thread RTOS.
 
-    scons --target=mdk/mdk4/iar/cb -s 
+If you want to generate the IDE's project file, you can use command:
+s
+    scons --target=mdk/mdk4/mdk5/iar/cb -s 
 
 to generate the project file. 
 
-NOTE: RT-Thread scons building system will tailor the system according to your rtconfig.h configuration header file. For example, if you disable the lwIP in the rtconfig.h by commenting the ```#define RT_USING_LWIP```, the generated project file has no lwIP related files. 
+NOTE: RT-Thread scons building system will tailor the system according to your rtconfig.h configuration header file. For example, if you disable the lwIP in the rtconfig.h by commenting the ```#define RT_USING_LWIP```, the generated project file should have no lwIP related files. 
 
 ## Contribution ##