I could take L1779
 

As long as L1779 will fit in 12 gig of RAM and leave enough room for day-to-day running and you are happy for it to take about 14 days (running 12 hours a day) I am more than happy to take it to help relieve pressure on the server.:smile:

[QUOTE=Speedy51;343884]As long as L1779 will fit in 12 gig of RAM and leave enough room for day-to-day running and you are happy for it to take about 14 days (running 12 hours a day) I am more than happy to take it to help relieve pressure on the server.:smile:[/QUOTE]

It fits on 12 GB. It will use something like 4-5 GB. Probably you will need more than 14 days, on my machine it would take 8-10 days 24/7.

Carlos

Thanks for the information Carlos. I am happy to run it as long as the return time is not a factor. My machine runs at 3.43 GHz. If there is a number in the processing queue that is going to take a shorter amount of time please let me know and I will would be more than happy to take.:smile:

L1379 splits as:

[CODE]prp68 factor: 24307429513510046430046237249898147795024087184306954241657643736419
prp166 factor: 1678971932250169428112481401342157509436588813220882500324442282535545212502018102991245295223704875855353355836614610136755392078532641957948235843912741629038600569[/CODE]

[QUOTE=Speedy51;343892]Thanks for the information Carlos. I am happy to run it as long as the return time is not a factor. My machine runs at 3.43 GHz. If there is a number in the processing queue that is going to take a shorter amount of time please let me know and I will would be more than happy to take.:smile:[/QUOTE]

If you haven't grabbed one yet, take L1213. Just let me know once you've downloaded the relations so I can move them offline.

RichD: Grab any available 14e numbers. Likewise, let me know once you have the relations and I'll move them.

Thanks!

[QUOTE=XYYXF;343856]It [C238_121_93] survived more than 20k curves at B1 = 260M :smile:[/QUOTE]
I guess I'll "reward" that effort by queuing this number to NFS@Home's 14e :wink:

The SNFS difficulty is near the 30-bit/31-bit crossover point. Test sieving shows that the yield with 30-bit LPs is a bit above 1 relation per q value at q ~33M and a bit below 1 relation per q value at q=100M, so it might just fly as a 30-bit LPs task.

L1776 done
 

L1776 is divisible by both 742328770387335947415020933852722163079046844521890953944321 and 23094080375318473678368681067642628000581939963734207875535879266314196125728850390871327

[QUOTE=frmky;343987]If you haven't grabbed one yet, take L1213. Just let me know once you've downloaded the relations so I can move them offline.
Thanks![/QUOTE]
I have started to download L1213. It's been going for almost 7 hours and it is currently at 32% (5.27 GB) it's downloading at between 150 kB and 200 kB a second. Is anybody asked experiencing low download speeds?

I experienced around 800 kB second that that probably lasted only for about 5 or 10 minutes and that was near the beginning of the download. As I write this it is currently downloading at 90 kB a second. I did a speed test, on my connection I get a download speed of over 4 MB a second. I'm using Mozilla Firefox with download resume plug in as I will not be altered download the full file 16.72 GB before I need to turn my computer or for the night. I was also experiencing quite slow speeds before I changed to the download resume plug in called download them all

L 1213 may be moved off line. Transfer speed was much better today. I have the zipped archive stored in two places.
[code]Sun Jun 23 19:54:25 2013 matrix is 14314121 x 14314321 (4034.2 MB) with weight 1168744237 (81.65/col)
Sun Jun 23 19:54:25 2013 sparse part has weight 914385288 (63.88/col)
Sun Jun 23 19:54:25 2013 saving the first 48 matrix rows for later
Sun Jun 23 19:54:28 2013 matrix includes 64 packed rows
Sun Jun 23 19:54:30 2013 matrix is 14314073 x 14314321 (3882.3 MB) with weight 929998873 (64.97/col)
Sun Jun 23 19:54:30 2013 sparse part has weight 874574353 (61.10/col)
Sun Jun 23 19:54:30 2013 using block size 65536 for processor cache size 12288 kB
Sun Jun 23 19:55:18 2013 commencing Lanczos iteration (12 threads)
Sun Jun 23 19:55:18 2013 memory use: 4386.1 MB
Sun Jun 23 19:57:07 2013 linear algebra at 0.0%, ETA 275h43m[/code]It will take me roughly 23 days to compete this job, this is because my computer runs for 12 to 13 hours per day. I will try running the job tomorrow on 6 threads instead of 12. I hope this will save some time.
I have just realised that I am not using the large block application. I will resume the job tomorrow with the large block application in the hope to also save some time. If needed I will start the job again, hopefully this will not be necessary
If anybody is interested it's using just over 5.8 GB of RAM

escatter11.fullerton.edu is now not responding at all

Yes. I'll likely go in to work later today and see what's up. :max: