The 640 MEG Shareware Studio 1

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TECHNICAL BULLETIN PERFORM LANtastic Performance Issues 08.07.91 Page 1 of 5 The following information is based on in-house testing of LANtastic. If you are not a registered LANtastic owner, your questions should be directed to our technical sales staff at (602) 293-6363. Any questions or comments on this bulletin may be forwarded by FAX (602) 293-8065 or mailed to : Artisoft Inc., 575 East River Road, Tucson, AZ., 85704, ATTN: Technical Support. GENERAL HINTS AND TIPS INCREASING PERFORMANCE OF LANTASTIC NETWORKS "What can I do to speed up my LAN?" A very common question, and one to which there is unfortunately, no cut and dried answer. Network performance depends on many things: to get the best performance out of your particular installation may require a little experimentation. This bulletin presents a discussion of some of the major factors that affect performance, and a few general suggestions for improvement. Choosing your Hardware When you're choosing the hardware for your LAN, keep in mind that the things that make a fast computer are also the basic ingredients of a fast network. A fast processor, fast memory and a fast disk drive all help to provide better network speed. For best performance, you should choose fast, well balanced components. The two biggest factors are CPU speed and hard disk speed. It's fairly easy to find fast computers and fast disk drives out there in the marketplace, but for the best results make sure that the components you buy are well matched. If you install a high performance disk drive in a 4.77 Mhz XT, your network will be slow because the computer's CPU won't be able to move data around fast enough to keep up with the drive, let alone the rest of the network. Similarly, if you install an old 20mb MFM drive in your 386-33, the fast processor will spend a lot of time waiting around for the old drive, as will the rest of your network users. The transmission speed of the adapter cards you choose will also make a difference. With reasonably fast machines, upgrading from a LANtastic 2mbps adapter to a new Artisoft Ethernet adapter can approximately double the throughput of the network. Again, balance is vital. If you have a slow processor, switching to Ethernet may not make much difference -- the 2mbps adapter has a coprocessor that handles all the low level NetBIOS processing, whereas the Ethernet adapter relies on the computer to handle everything. Optimizing Software Performance Now that we've dealt with hardware selection -- the easy stuff -- let's see what can be done to improve the performance of existing installations. First, let's tie down what we mean by the "speed" of the LAN. There are really two things at issue here, the physical transmission speed of the hardware, and the effective throughput, or how fast data gets from one place to another on the LAN. Assuming for now that the hardware is fixed and immutable, here are some suggestions for getting the best throughput with your particular application. General Improvements One thing that can improve performance on most networks is running the DOS FASTOPEN command on the server if you have DOS 3.3 or 4.01. FASTOPEN tracks the location of frequently used files and directories and greatly decreases the amount of time it takes to open files. (We have received reports of a problem in MS DOS 5.0 FASTOPEN.) Another change to improve performance on networks running NOS 3.0x is eliminating the I from each disk resources Access Control List. With the I ACL in place each time a file is opened the NOS checks to see if the file is an indirect file. If you are not using indirect files eliminating this ACL will save time when a file is opened. You can reduce the load on heavily used networks by disabling the Send Server ID selection in NET_MGR, Server Startup Parameters. With this selection enabled the server sends out a message once every retry period (55ms x retry_period setting), this message is just that the machine is a server and available. If your system is using batch files this message is not needed. Adding a disk cache to the server also helps performance in almost all situations. Disk caching programs work by storing frequently requested information in memory. This reduces the number of physical accesses to the disk. Since accessing memory is almost always faster than accessing the disk drive, caching can greatly improve the disk performance of your network. The LANtastic disk caching program LANcache, is specifically designed to work with LANtastic networks. It caches disk writes as well as disk reads and when it actually does have to write to the disk, it does so as a background operation so that CPU operations can continue. Choosing the Best Buffer Settings Beyond these general speedups, getting the best performance out of your specific application is a matter of fine tuning several parameters. LANtastic has four sets of buffers, each of which can affect performance in specific situations. Redir Buffers It takes the network about the same amount of time to send 1 byte of data as it does to send 256 bytes of data. Every packet sent over the network takes time to construct and time to process. Given this, it makes sense to include as much data as possible in each packet -- it keeps the overhead's impact to a minimum and reduces network traffic. The REDIR program accomplishes this by buffering network requests at each machine. Here's an example of REDIR's buffering in action: You are creating a file of customer names on the server and adding data to it. You type in the names one at a time and your program writes the names to the data file one at a time. Rather than issue a network send for each name, the data gets stored in the local REDIR buffer until you close the file or fill the buffer. At that point, REDIR issues a single request to send the entire buffer. REDIR buffers read requests similarly. If you request an amount of data smaller than the REDIR buffer, REDIR requests one buffer full of data from the server. Then, if you request the next sequential piece of data, REDIR can supply it to your program without even making a network request. If you read or write blocks of data larger than the REDIR buffer, the network software bypasses it and deals directly with the NetBIOS. The ideal REDIR buffer size then, would be about the average size of the packets that your network typically sends and receives. You can set the size of the REDIR buffers with the SIZE= command line switch. The number of REDIR buffers can also affect the performance of many applications. If you allocate multiple REDIR buffers using the BUFFERS= command line switch, the network tries to associate each one with a file handle. Network printers are handled just like other files. Ideally, you should have a buffer available for each open network file. If you have more files than available buffers, the network flushes the least recently used buffer and assigns it to the new request. WordPerfect is a good example of a program that is affected by the number of buffers. If you have only one buffer allocated, printing can be very slow because WP has to read the document and send data to the printer with the same buffer. The poor buffer gets continually filled and flushed, back and forth, with printer data and document data. In this situation, allocating just one more buffer allows WP to use one buffer for document reading and another for printing. Server Buffers and Tasks A server buffer is at the other end of a REDIR buffer. When, for example, a workstation makes a read request, the server reads one server buffer full of data, beginning with the information requested. If the workstation then asks for the next piece of the same information, the server can get it from the buffer instead of physically reading the hard disk. The server buffer size can be changed from the Server Startup Parameters option in the NET_MGR program. Be aware that bigger isn't necessarily better -- as with REDIR buffers, the optimal size is somewhere around the average size of the packets that will be transferred across the network by your application. One server buffer of whatever size you select is allocated for each network task. When a workstation submits a request to a server, the server will work on the request for a while, then switch to work on the next task for a while, and so on, in a round-robin fashion. If the server is set up with only one network task, instead of switching, the server will run the request to completion and other incoming tasks will be queued up behind it. From the user's standpoint, the station that submitted the first request will get very good performance, and everyone else will be kept waiting. In general, allowing more than one network tasks will ensure that everyone's requests get processed and will result in "smoother" network performance. If you're a using network adapter with a coprocessor, like our Enhanced 2mbps adapter, increasing the number of network tasks (with the Server Startup Parameters option of NET_MGR) will give you a big performance boost. While the coprocessor is busy working on one task, the server's CPU can work on another. This advantage is multiplied if you have more than one coprocessor equipped adapter in a server. In fact, with three or four 2mbps boards in a dedicated server and a corresponding number of network tasks, you can achieve a continuous throughput comparable to that of an Ethernet network with an equal number of stations. As a plus, you've got built-in redundancy -- the workstations connected to each adapter will function as separate networks. If one segment fails because of cabling or adapter problems, the rest will still operate. During testing at Artisoft, it was discovered that performance was at it's optimum with NOS 3.0, 3.03 or 4.00 running on Artisoft's ethernet adapters when Network Tasks were set to 3 in Server Startup Parameters. Artisoft is currently investigating why these setting are optimum and it is currently unknown if the same results would be found when testing with Artisoft's Enhanced 2Mbps adapters or other vendor's adapters with LANtastic AI. Printer Buffers As with REDIR and server buffers, increasing the size of your printer buffers can improve printing speed. If your server has more than one printer attached, increasing the number of printer tasks will allow it to print to more than one printer simultaneously. NetBIOS Buffers and Adapter Memory If your network is very active, try increasing the number of buffers used by your adapter's NetBIOS. This will decrease the size of the packet of data that your adapter will send and can increase the speed with which your network handles user requests. With LANBIOS or LANBIOS2, you can do this with the BUFFERS= command line switch. With AE-2, NE-3 and other Ethernet drivers for AI-LANBIOS, use the PACKET_SIZE= switch. If your network doesn't have a lot of contention, you can decrease the number of NetBIOS buffers so that the server can process larger blocks of data. With our AE-2 card, there's an easy way to get a performance boost on heavily loaded networks. You can upgrade the adapter from its default 16K configuration to a full 64K of RAM. The chips can be purchased direct from Artisoft, or you can use chips that meet the specifications in the AE-2 manual. Effects of Changing Buffer Sizes Keep in mind that on systems with only two or three stations, changing the buffer configuration may not have any measurable impact on speed. In any case, increasing the size and number of REDIR and SERVER buffers uses memory and can slow down programs running on the server. If your application performance is critical, consider setting up a dedicated server for your most used application programs and printers. Running applications on the server To get the best performance out of your network when you run applications on a server, you should always use the server as though it was a remote workstation: log in and access the application through network drives. Using the server locally, without logging in, places you in contention with the rest of the users and network performance can suffer. If you log in, the server will schedule you along with the rest of the network users and everyone will get good performance. Increasing print speed One of the slowest things about printing to a network printer is spooling to the hard disk. With LANtastic NOS 3.0 and above you can easily increase the print spooling speed by spooling to a RAM disk. To change the spooler's location, use the Change Spool Location option of NET_MGR's Queue Maintenance function. Several programs when run on a server will seriously effect the print speed, Windows 3.0, Clipper 5.0, and Autocad are prime examples. If you notice slow printing when running one of these programs on a print server you can increase print speed by setting printer tasks to 1 and setting cps in the printer descriptor to 9600. ARTISOFT, Inc. makes no warranties as to the completeness or accuracy of this document. LANtastic is a registered trademark of ARTISOFT, Inc. Brand names and product names are trademarks or registered trademarks of their respective companies. Network Performance Issues