858 reputation
318
bio website tobiasmuehlbauer.com
location Munich, Germany
age 27
visits member for 2 years, 3 months
seen Apr 30 at 16:13

. . .


May
8
comment Is there a way to load CSV data into a “binary” Hive format?
Thanks for the detailed description!
Feb
20
comment SQL two tables and creating a link table
@DarrenDavies yes, I cannot guarantee you that every query engine will profit from it - however you cannot say there is no waste of space (each entry in the list has an overhead of at least 4 Bytes for the artificial key). Your finding the first created value use case is an even worse use case: who says that the first entry is not deleted and a new entry is inserted with artificial key 1? My arguments come from a relational design point of view - sry for the downvote btw, that was a bit harsh, but I'm emotional when it comes to wrong assumptions in relational design.
Feb
20
comment SQL two tables and creating a link table
@DarrenDavies I don't say you can't have it but why introduce a new artificial key, waste space, and not just use the composite key? It does not make it easier to find records btw; working on core databases I can assure you that query optimizers often even profit from composite keys.
Feb
20
comment SQL two tables and creating a link table
@popnoodles maybe my comment is not clear but it's eployee_id and store_id together.
Feb
20
comment SQL two tables and creating a link table
You don't need an employee_listid. PK is employee_id,storeid.
Feb
20
comment SQL two tables and creating a link table
True @popnoodles. If an employee can work in more than one store than create a new relation works_in(employee_id,store_id) with primary key(employee_id,store_id) and foreign key on employee(employee_id) and store(store_id).
Feb
20
comment SQL two tables and creating a link table
Why don't you just add an attribute worksIn to employee? The attribute values of worksIn are store_id values then. worksIn is a foreign key on store(store_id).
Jan
29
comment UPDATE rows that exist, INSERT rows that do not
Well, SQL-92 way to "merge" 2 relations users and newusers that should work for all database systems: you can use except (something like newusers except users) to find the truly new users and insert them. For all others you can do an update.
Jan
29
comment MySQL if first charater is number
I'm not entirely sure what you try to do. Can you please clarify?
Jan
23
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
@doug65536 well one would expect it to be 1/512th (4kB vs. 2MB) with huge pages but it is not. What we see is cache thrashing which happens when a page exception is raised (when memory is first touched aka written and 0ed by the kernel). On NUMA systems cache thrashing has orders of magnitude worse effects than on SMP machines.
Jan
22
comment MySQL to MSSQL data types transfer
Well depends on the data stored in ID in MySQL --- we can only speculate based on the MySQL schema you provided.
Jan
22
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
@RandallCook: of course we could initialize memory up front and not pay the cost during the algorithm but that does not solve the problem itself---there is a point where you have to pay for initialization. We tried cache alignment to avoid cache thrashing.
Jan
22
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
@Yakk: true, all scalable allocators I know of bypass their implementations and call mmap for large allocations. Thus they are all affected by the scalability issue which is related to the page table spin lock on NUMA architectures.
Jan
22
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
@doug65536: see post you commented on. Huge pages help but don't solve the problem. The page table spinlock is the bottleneck here.
Jan
9
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
Yes, it makes no difference if you use calloc instead of malloc+memset --- it's a synchronization scalability problem of page exceptions (page table spinlock) that is showing its severity on NUMA systems.
Dec
19
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
Yes, indeed, I measured the same effect. I assume it's the process page table's spin_lock (not 100% sure yet). There seems to be some work going on related to hierarchical scalable spin_locks for scalable page fault handling.
Dec
19
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
Thx. So this already helps me a lot as you were able to reproduce what I measured. In your case performance stagnates with 2 sockets and then decreases; I already measured the decrease with just 2 sockets but that might be due to different hardware configurations. So to conclude, page fault handling (touching first time) does not scale well enough for a single process (I ran experiments and for multiple processes it does). The bottleneck seems not to be the 0ing of a page when touching the first time (writing already touched pages scales) but the synchronization on the process' VM page table.
Dec
19
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
Just to get your test right: you allocated memory, touched it (pre-faulting) and then wrote it; then you measured the ratio of time it took to touch the memory and to write it. So to speak on a single-core-bound thread it took 2.1x longer to touch it the first time than it took to write it afterwards. Is this understanding correct?
Dec
10
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
It'd be great to see numbers from the machines with more RAM. I'm limited to the NUMA machine mentioned above. My hypothesis is that the amount of RAM per socket is influencing the parallel dynamic allocation performance. However just a guess so far ...
Dec
10
comment Scalable allocation of large (8MB) memory regions on NUMA architectures
The numbers I posted were taken without perf. I already profiled with different tools (perf, VTune amplifier, ...). The performance/parallelization bottleneck are definitely the multithreaded malloc calls. Another theory: how much main memory does your system configuration have?