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diff --git a/TAO/tests/Cubit/COOL/MT_Cubit/README b/TAO/tests/Cubit/COOL/MT_Cubit/README deleted file mode 100644 index 31e1b9fc72a..00000000000 --- a/TAO/tests/Cubit/COOL/MT_Cubit/README +++ /dev/null @@ -1,149 +0,0 @@ -The MT-Cubit example for the CHORUS COOL ORB --------------------------------------------- - -Compiling ---------- - -Setup the CHORUS COOL environment variables before compiling, the -following is an example. You would typically want this in the shells' -resource file (e.g. .cshrc.mine). The example provided is for a C -shell. - - setenv CHORUS_ROOT /project/doc/miniCOOL/minicool.r4.3/solaris2.5-CC-mt - set path = ($path /project/doc/miniCOOL/minicool.r4.3/solaris2.5-CC-mt/bin) - setenv LD_LIBRARY_PATH /project/doc/miniCOOL/minicool.r4.3/solaris2.5-CC-mt/lib:$LD_LIBRARY_PATH - setenv MANPATH /project/doc/miniCOOL/minicool.r4.3/solaris2.5-CC-mt/man:$MANPATH - -Makefiles are provided. Use make to compile. - -You can either run the server in the background in the same window as -the client or open a separate window for the client and server. - -server: -------- - -./server <tpr | tpool> cool-tcp://<THIS_HOSTNAME>:<THIS_HOST_PORT> -v -cool-tcp -cool-iiop - -tpr : this indicates to the server to use the Thread Per Request concurrency model. - -tpool : this indicates to the server to use the Thread Pool concurrency model. - -THIS_HOSTNAME : the name of the host that the server will be running on. This is useful - if you want to specifya different interface (e.g. ATM, 100Mbit Ethernet) - -THIS_HOST_PORT: is the port number at which the server will start the high - priority servant. The low priority servant will be created at - (THIS_HOST_PORT+1). - -The server will print the IOR of the high and low priority servants, -but it is not required by the client. - -client: -------- - -./client [-n <LOOP_COUNT>] [-t <NUM_THREADS>] [-h SERVER_HOSTNAME] [-p <SERVER_PORT_NUM>] -cool-tcp -cool-iiop - -<SERVER_HOSTNAME>: is the hostname of the server. - -<SERVER_PORT_NUM>: is the port number of the servant. - -Based on the SERVER_HOSTNAME and the SERVER_PORT_NUM, the client constructs -the IOR's for the high priority servant and the low priority servant. - -<LOOP_COUNT> : is the number of times the group of CORBA twoway calls are to - be made. The group consists of the following calls: cube_octet(), cube_short(), - cube_long() and cube_struct(). The default is 100 loops (i.e. 400 calls are made). - -<NUM_THREADS> : is the total number of concurrent clients to be - created. One of these clients will be a high priority client (and thus - send requests to the high priority servant), and the rest will have - low priority. - -The high priority client makes requests at 20Hz, and the low priority -clients make requests at 10Hz. - -Results -------- - -The client prints the latency observed by the high priority client, -and the average latency observed by the low priority client. - -An Example ----------- - - On the host lambada.cs.wustl.edu : - - % ./server tpool cool-tcp://lambada.cs.wustl.edu:3000 -v -cool-tcp -cool-iiop - - On the host merengue.cs.wustl.edu : - - % ./client -t 2 -h lambada.cs.wustl.edu -p 3000 -cool-tcp -cool-iiop - - The output of the client program may look like this: - - (5) Everyone's done, here I go!! - (4) Threads have bound, utilization test started - (9) Everyone's done, here I go!! - (8) Everyone's done, here I go!! - (6) Everyone's done, here I go!! - (7) Everyone's done, here I go!! - cube average call ACE_OS::time = 20.917016 msec, 47.807966 calls/second - (5) My latency was 20.917016 - 5 calls, 0 errors - cube average call ACE_OS::time = 19.299501 msec, 51.814811 calls/second - (8) My latency was 19.299501 - cube average call ACE_OS::time = 19.262436 msec, 51.914514 calls/second - 5 calls, 0 errors - (9) My latency was 19.262436 - 5 calls, 0 errors - cube average call ACE_OS::time = 15.101540 msec, 66.218412 calls/second - (6) My latency was 15.101540 - 5 calls, 0 errors - cube average call ACE_OS::time = 10.320359 msec, 96.895858 calls/second - (7) My latency was 10.320359 - 5 calls, 0 errors - Test done. - High priority client latency : 20.917016 msec, jitter: 36.582330 msec - Low priority client latency : 15.995959 msec, jitter: 527.515277 msec - utilization task performed 435 computations - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
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