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process takes this message to the out queue and sends the information back to the client workstation
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Kernel Processes
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Kernel processes are the JDENET_k processes on your enterprise or application servers They perform some of the work on the enterprise server In this section, we are going to cover how these processes tie into the system Each kernel type performs a specific function, which is listed in the JDEINI file The JDENET_n process hands off a request to the JDENET_k kernel process, and this process performs work, getting data from a database, using specifications to run a UBE, or calling a business function to perform work The type of work that is performed depends on which type of kernel process is called In our discussion of the Server Manager earlier in this chapter, we explained how to monitor your specific kernel processes Let s see how these processes are started and controlled by the JDEINI file
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Tweaking Server Kernel Processes
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Suppose you have a lot of end users who are running business functions on the enterprise server In this section, we will cover how to set up your server kernel processes to handle this work As mentioned previously, each different type of kernel process performs a different function
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Let s run through an example of how you set up the JDEINI file to provide the correct number of kernel processes We will describe setting up the call object kernel to handle users running business functions on enterprise or application servers First open your JDEINI file on your enterprise server; you can do this using Server Manager This file controls how your server kernel process acts Scroll down to the call object kernel definition, kernel definition number 6 A rule of thumb is to have one call object kernel process per six end users The following is the kernel definition for the call object kernel:
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[JDENET_KERNEL_DEF6] krnlName=CALL OBJECT KERNEL dispatchDLLName=XMLCallObjdll dispatchDLLFunction=_XMLCallObjectDispatch@28 maxNumberOfProcesses=12 numberOfAutoStartProcesses=7 ThreadPoolSize=20 ThreadPoolSizeIncrement=5 singleThreadedMode=Y
Suppose you have 120 users who are going to be on the system running business functions against the enterprise server You may need to increase the maximum number of call object kernel processes that can be started on this server In our example, we recommend setting the maximum number of kernel processes to 12 As stated previously, the number of autostart processes variable controls the number of processes that start up when you start your host services This number can never be higher than the value for the max number of kernel processes setting in the JDEINI file Because kernel processes take up system resources when they are running, you also must consider the demand on the system when you are setting this variable Ensure that you don t start up too many kernel processes upon starting your host services In our example, we set this number to 7, which means that seven kernel processes start up when you start your host processes You may have noticed the ThreadPoolSize, ThreadPoolIncrement, and singleThreadedMode settings in this section of the INI file You see, as of 811 Oracle has given the host code the ability to have multithreaded call object kernels This means that these kernels can work on multiple pieces of a business function request at the same time The code can tell what is dependent and what is not If it is not dependent, the code runs at the same time in different threads This is where these settings come into play The ThreadPoolSize determines the initial size of the thread pool in memory The ThreadPoolSizeIncrement is the number of new threads that will be created when all current threads are in use Yes, you guessed it the singleThreadedMode setting controls whether or not you use the multithreaded call object functionality You do not need to use this if you do not want to
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