I've also posted this question on runsubmit.com, a site outside the SE network for SAS-related questions.

At work there are 2 sas servers I use. When I transfer a sas dataset from one to the other via proc upload, it goes at about 2.5MB/s. However, if I map the drive on one server as a network drive and copy and paste the file across, it runs much faster, around 80MB/s (over the same gigabit connection).

Could anyone suggest what might be causing this and what I can do either to fix it or as a workaround?

There is also a third server I use that cannot map network drives on the other two- SAS is the only available means of transferring files from that one, so I need a SAS-based solution. Although individual transfers from this one run at 2.5MB/s, I've found that it's possible to have several transfers all going in parallel, each at 2.5MB/s.

Would SAS FTP via filenames and a data step be any faster than using proc upload? I might try that next, but I would prefer not to use this- we only have SAS 9.1.3, so SFTP isn't available.

Update - Further details:

  • I'm connecting to a spawner, and I think it uses 'SAS proprietary encryption' (based on what I recall seeing in the logs).
  • The uploads are Windows client -> Windows remote in the first case and Unix client -> Windows remote in the second case.
  • The SAS datasets in question are compressed (i.e. by SAS, not some external compression utility).
  • The transfer rate is similar when using proc upload to transfer external files (.bz2) in binary mode.
  • All the servers have very fast disk arrays handled by enterprise-grade controllers (minimum 8 drives in RAID 10)

Potential solutions

  • Parallel PROC UPLOAD - potentially fast enough, but extremely CPU-heavy
  • PROC COPY - much faster than PROC UPLOAD, much less CPU overhead
  • SAS FTP - not secure, unknown speed, unknown CPU overhead

Update - test results

  • Parallel PROC UPLOAD: involves quite a lot of setup* and a lot of CPU, but works reasonably well.
  • PROC COPY: exactly the same transfer rate per session as proc upload, and far more CPU time used.
  • FTP: About 20x faster, minimal CPU (100MB/s vs. 2.5MB/s per parallel proc upload).

*I initially tried the following:

local session -> remote session on source server -> n remote sessions on destination server -> Recombine n pieces on destination server

Although this resulted in n simultaneous transfers, they each ran at 1/n of the original rate, probably due to a CPU bottleneck on the source server. To get it to work with n times the bandwidth of a single transfer, I had to set it up as:

local session -> n remote sessions on source server -> 1 remote session each on destination server -> Recombine n pieces on destination server

SAS FTP code

filename source ftp '\dir1\dir2'
binary dir
user="&username" pass="&password";

let work = %sysfunc(pathname(work));
filename target "&work";
data _null_;
infile source('dataset.sas7bdat') truncover;
file target('dataset.sas7bdat');
put _infile_;
  • Please update your question with details on the SAS server environments and how you CONNECT, especially if you are connecting to a CONNECT Spawner or or some other method. If using a Spawner, find out if it is using encryption. – BellevueBob Jan 12 '13 at 15:29
  • Question updated - what other specific details would be useful? – user667489 Jan 12 '13 at 16:03
  • Are the SAS data sets you are uploading compressed? And I'm guessing everything is Windows, correct? And when you say you are copying from one server to another, do you mean you are connecting to server B with a SAS/CONNECT session from server A? – BellevueBob Jan 12 '13 at 16:17
  • I've noticed this before as well when I was working at my previous company. We stopped using proc upload and started using FTP to transfer datasets. I just figured there's a lot of overhead associated with it much like using a proc to duplicate a dataset. Doing it in SAS will take many times longer than just copying it via the OS. – Robert Penridge Jan 14 '13 at 15:40

My understanding of PROC UPLOAD is that it is performing a record-by-record upload of the file along with some conversions and checks, which is helpful in some ways, but not particularly fast. PROC COPY, on the other hand, will happily copy the file without being quite as careful to maintain things like indexes and constraints; but it will be much faster. You just have to define a libref for your server's files.

For example, I sign on to my server and assign it the 'unix' nickname. Then I define a library on it: libname uwork server=unix slibref=work;

Then I execute the following PROC COPY code, using a randomly generated 1e7 row datafile. Following that, I also RSUBMIT a PROC UPLOAD for comparison purposes.

48   proc copy in=work out=uwork;
NOTE: Writing HTML Body file: sashtml.htm
49   select test;
50   run;

NOTE: Copying WORK.TEST to UWORK.TEST (memtype=DATA).
NOTE: There were 10000000 observations read from the data set WORK.TEST.
NOTE: The data set UWORK.TEST has 10000000 observations and 1 variables.
NOTE: PROCEDURE COPY used (Total process time):
      real time           13.07 seconds
      cpu time            1.93 seconds

51   rsubmit;
NOTE: Remote submit to UNIX commencing.
3    proc upload data=test;
4    run;

NOTE: Upload in progress from data=WORK.TEST to out=WORK.TEST
NOTE: 80000000 bytes were transferred at 1445217 bytes/second.
NOTE: The data set WORK.TEST has 10000000 observations and 1 variables.
NOTE: Uploaded 10000000 observations of 1 variables.
NOTE: The data set WORK.TEST has 10000000 observations and 1 variables.
      real time           55.46 seconds
      cpu time            42.09 seconds

NOTE: Remote submit to UNIX complete.

PROC COPY is still not quite as fast as OS copying, but it's much closer in speed. PROC UPLOAD is actually quite a bit slower than even a regular data step, because it's doing some checking; in fact, here the data step is comparable to PROC COPY due to the simplicity of the dataset (and probably the fact that I have a 64k block size, meaning that a data step is using the server's 16k block size while PROC COPY presumably does not).

52   data uwork.test;
53   set test;
54   run;

NOTE: There were 10000000 observations read from the data set WORK.TEST.
NOTE: The data set UWORK.TEST has 10000000 observations and 1 variables.
NOTE: DATA statement used (Total process time):
      real time           12.60 seconds
      cpu time            1.66 seconds

In general in 'real world' situations, PROC COPY is faster than a data step, but both are faster than PROC UPLOAD - unless you need to use proc upload because of complexities in your situation (I have never seen a reason to, but I know it is possible). I think that PROC UPLOAD was more necessary in older versions of SAS but is largely unneeded now, but given my experience is fairly limited in terms of hardware setups this may not apply to your situation.

  • 1
    Just to clarify a bit further - look at the difference between Real and CPU time for each; that's the disk access time, mostly. In each case it's 11-14 seconds. The PROC UPLOAD is so slow because it's doing all sorts of other things requiring the CPU's attention, hence the 42 seconds of CPU time versus less than 2 for PROC COPY and data step. – Joe Jan 12 '13 at 18:08
  • I'd wondered about the amount of CPU time consumed by proc upload, but it didn't seriously occur to me that this could be a bottleneck. Thank you for letting me know about proc copy - I'll test that next. I presume an OS copy would max out the connection you're using - for comparison, how fast is the connection you used to do the test compared to the transfer rate you got with proc copy? – user667489 Jan 12 '13 at 19:12
  • I think the OS copy is still somewhat faster from previous tests, but I don't have access to my work PC to test that directly at the moment. In my case, I'm on a gigabit connection to a NAS on the same switch, so it's theoretically very fast (probably similar to yours, though I doubt I'd get 80MB/s). OS copy would not necessarily max out the connection, mind you, unless the connection is slower than your HDD transfer rates; for a physical HDD, that's usually at most 125MB/s or so (and you lose some no matter what, so 80MB/s is probably a reasonable practical limit). – Joe Jan 12 '13 at 19:30
  • So it looks as though you're getting 1.37MB/s via proc upload and 5.84MB/s via proc copy, which is a lot faster, but still some way short of using all the available bandwidth. Could you possibly test the technique from page 10 here? support.sas.com/resources/papers/proceedings11/143-2011.pdf – user667489 Jan 12 '13 at 19:38
  • If you can't FTP directly, I don't think you could use SAS to FTP - it's still connecting through a normal FTP connection. It's mostly helpful if you want to avoid XCMD restrictions, but if you have a desktop version of SAS, you should be able to XCMD. (I also don't have a connection to my work desktop open anymore, as I noted in the other comment.) In my example above, my server is Unix on a virtual slice, so its bandwidth undoubtedly is highly variable - not likely to vary much saturday morning, but that might be the bandwidth it was allocated. I can't map a drive to it, unfortunately. – Joe Jan 12 '13 at 19:50

FTP, if available from the source server, is much faster than proc upload or proc copy. These both operate on a record-by-record basis and can be CPU-bound over fast network connections, especially for very wide datasets. A single FTP transfer will attempt to use all available bandwidth, with negligible CPU cost.

This assumes that the destination server can use the unmodified transferred file - if not, the time required to make it usable might negate the increased transfer speed of FTP.

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