It seems, you can eliminate any output-buffer related problems by using fpassthru(). I also use -0 to save CPU time since my data is compact already. I use this code to serve a whole folder, zipped on-the-fly:

chdir($folder);
$fp = popen('zip -0 -r - .', 'r');
header('Content-Type: application/octet-stream');
header('Content-disposition: attachment; filename="'.basename($folder).'.zip"');
fpassthru($fp);

I wrote this s3 steaming file zipper microservice last weekend - might be useful: http://engineroom.teamwork.com/how-to-securely-provide-a-zip-download-of-a-s3-file-bundle/

Another solution is my mod_zip module for Nginx, written specifically for this purpose:

https://github.com/evanmiller/mod_zip

It is extremely lightweight and does not invoke a separate "zip" process or communicate via pipes. You simply point to a script that lists the locations of files to be included, and mod_zip does the rest.

According to the PHP manual, the ZIP extension provides a zip: wrapper.

I have never used it and I don't know its internals, but logically it should be able to do what you're looking for, assuming that ZIP archives can be streamed, which I'm not entirely sure of.

As for your question about the "LAMP stack" it shouldn't be a problem as long as PHP is not configured to buffer output.

Edit: I'm trying to put a proof-of-concept together, but it seems not-trivial. If you're not experienced with PHP's streams, it might prove too complicated, if it's even possible.

Edit(2): rereading your question after taking a look at ZipStream, I found what's going to be your main problem here when you say (emphasis added)

the operative Zipping should operate in streaming mode, ie processing files and providing data at the rate of the download.

That part will be extremely hard to implement because I don't think PHP provides a way to determine how full Apache's buffer is. So, the answer to your question is no, you probably won't be able to do that in PHP.

You can use popen() (docs) or proc_open() (docs) to execute a unix command (eg. zip or gzip), and get back stdout as a php stream. flush() (docs) will do its very best to push the contents of php's output buffer to the browser.

Combining all of this will give you what you want (provided that nothing else gets in the way -- see esp. the caveats on the docs page for flush()).

(Note: don't use flush(). See the update below for details.)

Something like the following can do the trick:

<?php
// make sure to send all headers first
// Content-Type is the most important one (probably)
//
header('Content-Type: application/x-gzip');

// use popen to execute a unix command pipeline
// and grab the stdout as a php stream
// (you can use proc_open instead if you need to 
// control the input of the pipeline too)
//
$fp = popen('tar cf - file1 file2 file3 | gzip -c', 'r');

// pick a bufsize that makes you happy (64k may be a bit too big).
$bufsize = 65535;
$buff = '';
while( !feof($fp) ) {
   $buff = fread($fp, $bufsize);
   echo $buff;
}
pclose($fp);

You asked about "other technologies": to which I'll say, "anything that supports non-blocking i/o for the entire lifecycle of the request". You could build such a component as a stand-alone server in Java or C/C++ (or any of many other available languages), if you were willing to get into the "down and dirty" of non-blocking file access and whatnot.

If you want a non-blocking implementation, but you would rather avoid the "down and dirty", the easiest path (IMHO) would be to use nodeJS. There is plenty of support for all the features you need in the existing release of nodejs: use the http module (of course) for the http server; and use child_process module to spawn the tar/zip/whatever pipeline.

Finally, if (and only if) you're running a multi-processor (or multi-core) server, and you want the most from nodejs, you can use Spark2 to run multiple instances on the same port. Don't run more than one nodejs instance per-processor-core.

Update (from Benji's excellent feedback in the comments section on this answer)

1. The docs for fread() indicate that the function will read only up to 8192 bytes of data at a time from anything that is not a regular file. Therefore, 8192 may be a good choice of buffer size.

[editorial note] 8192 is almost certainly a platform dependent value -- on most platforms, fread() will read data until the operating system's internal buffer is empty, at which point it will return, allowing the os to fill the buffer again asynchronously. 8192 is the size of the default buffer on many popular operating systems.

There are other circumstances that can cause fread to return even less than 8192 bytes -- for example, the "remote" client (or process) is slow to fill the buffer - in most cases, fread() will return the contents of the input buffer as-is without waiting for it to get full. This could mean anywhere from 0..os_buffer_size bytes get returned.

The moral is: the value you pass to fread() as buffsize should be considered a "maximum" size -- never assume that you've received the number of bytes you asked for (or any other number for that matter).

2. According to comments on fread docs, a few caveats: magic quotes may interfere and must be turned off.

3. Setting mb_http_output('pass') (docs) may be a good idea. Though 'pass' is already the default setting, you may need to specify it explicitly if your code or config has previously changed it to something else.

4. If you're creating a zip (as opposed to gzip), you'd want to use the content type header:

Content-type: application/zip

or... 'application/octet-stream' can be used instead. (it's a generic content type used for binary downloads of all different kinds):

Content-type: application/octet-stream

and if you want the user to be prompted to download and save the file to disk (rather than potentially having the browser try to display the file as text), then you'll need the content-disposition header. (where filename indicates the name that should be suggested in the save dialog):

Content-disposition: attachment; filename="file.zip"

One should also send the Content-length header, but this is hard with this technique as you don’t know the zip’s exact size in advance. Is there a header that can be set to indicate that the content is "streaming" or is of unknown length? Does anybody know?

Finally, here's a revised example that uses all of @Benji's suggestions (and that creates a ZIP file instead of a TAR.GZIP file):

<?php
// make sure to send all headers first
// Content-Type is the most important one (probably)
//
header('Content-Type: application/octet-stream');
header('Content-disposition: attachment; filename="file.zip"');

// use popen to execute a unix command pipeline
// and grab the stdout as a php stream
// (you can use proc_open instead if you need to 
// control the input of the pipeline too)
//
$fp = popen('zip -r - file1 file2 file3', 'r');

// pick a bufsize that makes you happy (8192 has been suggested).
$bufsize = 8192;
$buff = '';
while( !feof($fp) ) {
   $buff = fread($fp, $bufsize);
   echo $buff;
}
pclose($fp);

Update: (2012-11-23) I have discovered that calling flush() within the read/echo loop can cause problems when working with very large files and/or very slow networks. At least, this is true when running PHP as cgi/fastcgi behind Apache, and it seems likely that the same problem would occur when running in other configurations too. The problem appears to result when PHP flushes output to Apache faster than Apache can actually send it over the socket. For very large files (or slow connections), this eventually causes in an overrun of Apache's internal output buffer. This causes Apache to kill the PHP process, which of course causes the download to hang, or complete prematurely, with only a partial transfer having taken place.

The solution is not to call flush() at all. I have updated the code examples above to reflect this, and I placed a note in the text at the top of the answer.

Trying to implement a dynamic generated download with lots of files with different sizes i came across this solution but i run into various memory errors like "Allowed memory size of 134217728 bytes exhausted at ...".

After adding ob_flush(); right before the flush(); the memory errors disappear.

Together with sending the headers, my final solution looks like this (Just storing the files inside the zip without directory structure):

<?php

// Sending headers
header('Content-Type: application/zip');
header('Content-Disposition: attachment; filename="download.zip"');
header('Content-Transfer-Encoding: binary');
ob_clean();
flush();

// On the fly zip creation
$fp = popen('zip -0 -j -q -r - file1 file2 file3', 'r');

while (!feof($fp)) {
    echo fread($fp, 8192);
    ob_flush();
    flush();
}

pclose($fp);