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There are around 3 millions of arrays - or Python lists\tuples (does not really matter). Each array consists of the following elements:

['string1', 'string2', 'string3', ...]  # totally, 10000 elements

These arrays should be stored in some kind of key-value storage. Let's assume now it's a Python's dict, for a simple explanation.

So, 3 millions of keys, each key represents a 10000-elements array.

Lists\tuples or any other custom thing - it doesn't really matter. What matters is that arrays should consist strings - utf8 or unicode strings, from 5 to about 50 chars each. There are about 3 millions of possible strings as well. It is possible to replace them with integers if it's really needed, but for more efficient further operations, I would prefer to have strings.

Though it's hard to give you a full description of the data (it's complicated and odd), it's something similar to synonyms - let's assume we have 3 millions of words - as the dict keys - and 10k synonyms for each of the word - or element of the list.

Like that (not real synonyms but it will give you the idea):

{
    'computer': ['pc', 'mac', 'laptop', ...],  # (10k totally)
    'house': ['building', 'hut', 'inn', ...],  # (another 10k)
     ...
}

Elements - 'synonyms' - can be sorted if it's needed.

Later, after the arrays are populated, there's a loop: we go thru all the keys and check if some var is in its value. For example, user inputs the words 'computer' and 'laptop' - and we must quickly reply if the word 'laptop' is a synonym of the word 'computer'. The issue here is that we have to check it millions of time, probably 20 millions or so. Just imagine we have a lot of users entering some random words - 'computer' and 'car', 'phone' and 'building', etc. etc. They may 'match', or they may not 'match'.

So, in short - what I need is to:

  • store these data structures memory-efficiently,
  • be able to quickly check if some item is in array.

I should be able to keep memory usage below 30GB. Also I should be able to perform all the iterations in less than 10 hours on a Xeon CPU.

It's ok to have around 0.1% of false answers - both positive and negative - though it would be better to reduce them or don't have them at all.

What is the best approach here? Algorithms, links to code, anything is really appreciated. Also - a friend of mine suggested using bloom filters or marisa tries here - is he right? I didn't work with none of them.

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Do you need to keep them in RAM? I'd look into something like HDF5 files, that are designed for this kind of use. –  Ricardo Cárdenes Feb 18 at 13:10
    
(ok, HDF5 is not the thing for you, because it's meant for numerical data, but you get the point) –  Ricardo Cárdenes Feb 18 at 13:11
    
@RicardoCárdenes well, a single-node cluster will work just too slow using HDD. Disk operations are extremely slow. I doubt that even SDD would help a lot. Also I would not like to complicate things and create a multi-node cluster. If it's possible to avoid doing so and keep everything in RAM, then it should be the way it goes. –  Spaceman Feb 18 at 13:17
    
What do you mean by "all the iterations in under 10 hours"? Also, "by memory usage under 30GB", do you mean for the whole data structure? That will be difficult, as storing just the strings, leaving out which map to which, will take well over 100GB without compression. –  sweeneyrod Feb 18 at 13:19
6  
Do you work for the NSA? ;-) –  martineau Feb 18 at 13:22

2 Answers 2

I would map each unique string to a numeric ID then associate a bloom filter with around 20 bits per element for your <0.1% error rate. 20 bits * 10000 elements * 3 million keys is 75GB so if you are space limited, then store a smaller less accurate filter in memory and the more accurate filter on disk which is called up if the first filter says it might be a match.

There are alternatives, but they will only reduce the size from 1.44·n·ln2(1/ε) to n·ln2(1/ε) per key, in your case ε=0.001 so the theoretical limit is a data structure of 99658 bits per key, or 10 bits per element, which would be 298,974,000,000 bits or 38 GB.

So 30GB is below the theoretical limit for a data structure with the performance and number of entries that you require, but within the ball park.

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Why do you want to maintain your own in-memory data-structure? Why not use a regular database for this purpose? If that is too slow, why no use an in-memory database? One solution is to use in-memory sqlite3. Check this SO link, for example: Fast relational Database for simple use with Python

You create the in-memory database by passing ':memory:' to connect method.

import sqlite3
conn = sqlite3.connect(':memory:')

What will your schema be? I can think of a wide-schema, with a string as an id key (e.g. 'computer', 'house' in your example and about 10000 additional columns: 'field1' to 'field10000'; one of each element of your array). Once you construct the schema, iteratively inserting your data in the database will be simple: one SQL statement per row of your data. And from your description, the insert part is one-time-only. There are no further modifications to the database.

The biggest question is retrieval (more crucially, speed of retrieval). Retrieving entire array for a single key like computer is again a simple SQL statement. The scalability and speed is something I don't have an idea about and this is something you will have to experiment. There is still hope that in-memory database will speed up the retrieval part. Yet, I believe that this is the cheapest and fastest solution you can implement and test (much cheaper than multiple node cluster)

Why am I suggesting this solution? Because the setup that you have in mind is extremely similar to that of a fast-growing database-backed internet startup. All good startups have similar number of requests per day; use some sort of database with caching (Caching would be next thing to look for your problem if a simple database doesn't scale to million requests. Again, it is much easier and cheaper than buying RAM/nodes).

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This would waste memory if some words had less than 10,000 synonyms, which seems likely. –  sweeneyrod Feb 18 at 13:42
    
From his description, it seems that data is structured with exactly 10k records. In case of less, details will matter. We can still remain memory efficient if large number of records are big –  Sudeep Juvekar Feb 18 at 14:06
    
well, thanks for the idea. Though I think redis would be faster, isn't it? it must be faster, and it must have a smaller overhead, just because it lacks RDBMS features such as filtering, ordering, joins etc. etc. But even with Redis it won't be very fast and compact - need to find a way to reduce array size so bloom filters might help –  Spaceman Feb 19 at 4:05

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