Calculating pairwise cosine similarity between quite a large number of vectors in Bigquery

Question

I have a table id_vectors that contains id and their corresponding coordinates. Each of the coordinates is a repeated fields with 512 elements inside it.

I am looking for pairwise cosine similarity between all those vectors, e.g. If I have three ids 1,2 and 3 then I am looking for a table where I have cosine similarity between them (based on the calculation using 512 coordinates) like below:

id1   id2   similarity
 1     2      0.5
 1     3      0.1
 2     3      0.99

Now in my table I have 424,970 unique ID and their corresponding 512-dimension coordinates. Which means that basically I need to create around (424970 * 424969 / 2) unique pair of IDs and calculate their similarity.

I first tried with the following query using reference from here:

#standardSQL
with pairwise as
(SELECT t1.id as id_1, t1.coords as coord1, t2.id as id_2, t2.coords as coord2
FROM `project.dataset.id_vectors` t1
inner join `project.dataset.id_vectors` t2
on t1.id < t2.id)

SELECT id_1, id_2, ( 
  SELECT 
    SUM(value1 * value2)/ 
    SQRT(SUM(value1 * value1))/ 
    SQRT(SUM(value2 * value2))
  FROM UNNEST(coord1) value1 WITH OFFSET pos1 
  JOIN UNNEST(coord2) value2 WITH OFFSET pos2 
  ON pos1 = pos2
  ) cosine_similarity
FROM pairwise

But after running for 6 hrs I encountered the following error message Query exceeded resource limits. 2.2127481953201417E7 CPU seconds were used, and this query must use less than 428000.0 CPU seconds.

Then I thought rather than using an intermediate table pairwise, why don't I try to create that table first then do the cosine similarity calculation.

So I tried the following query:

SELECT t1.id as id_1, t1.coords as coord1, t2.id as id_2, t2.coords as coord2
FROM `project.dataset.id_vectors` t1
inner join `project.dataset.id_vectors` t2
on t1.id < t2.id

But this time the query could not be completed and I encountered the following message: Error: Quota exceeded: Your project exceeded quota for total shuffle size limit. For more information, see https://cloud.google.com/bigquery/troubleshooting-errors.

Then I tried to create even a smaller table, by just creating the combination pairs of the ids and stripping off the coordinates from it, using the following query:

SELECT t1.id as id_1, t2.id as id_2
FROM `project.dataset.id_vectors` t1
inner join `project.dataset.id_vectors` t2
on t1.id < t2.id

Again my query ends up with the error message Query exceeded resource limits. 610104.3843576935 CPU seconds were used, and this query must use less than 3000.0 CPU seconds. (error code: billingTierLimitExceeded)

I totally understand that this is a huge query and my stopping point is my billing quota.

What I am asking is that, is there a way to execute the query in a smarter way so that I do not exceed either of the resourceLimit, shuffleSizeLimit or billingTierLimit?

Answer 1

Quick idea is - instead of joining table on itself with redundant coordinates - you should rather just create simple table of pairs (id1, id2), so then you will "dress" respective id's with their coordinates vectors by having two extra joining to dataset.table.id_vectors

Below is quick example of how this could looks like:

#standardSQL
WITH pairwise AS (
  SELECT t1.id AS id_1, t2.id AS id_2
  FROM `project.dataset.id_vectors` t1
  INNER JOIN `project.dataset.id_vectors` t2
  ON t1.id < t2.id
)
SELECT id_1, id_2, ( 
  SELECT 
    SUM(value1 * value2)/ 
    SQRT(SUM(value1 * value1))/ 
    SQRT(SUM(value2 * value2))
  FROM UNNEST(a.coords) value1 WITH OFFSET pos1 
  JOIN UNNEST(b.coords) value2 WITH OFFSET pos2 
  ON pos1 = pos2
  ) cosine_similarity
FROM pairwise t
JOIN `project.dataset.id_vectors` a ON a.id = id_1
JOIN `project.dataset.id_vectors` b ON b.id = id_2

Obviously it works on small dummy set as you can see below:

#standardSQL
WITH `project.dataset.id_vectors` AS (
  SELECT 1 id, [1.0, 2.0, 3.0, 4.0] coords UNION ALL
  SELECT 2, [1.0, 2.0, 3.0, 4.0] UNION ALL
  SELECT 3, [2.0, 0.0, 1.0, 1.0] UNION ALL
  SELECT 4, [0, 2.0, 1.0, 1.0] UNION ALL 
  SELECT 5, [2.0, 1.0, 1.0, 0.0] UNION ALL
  SELECT 6, [1.0, 1.0, 1.0, 1.0]
), pairwise AS (
  SELECT t1.id AS id_1, t2.id AS id_2
  FROM `project.dataset.id_vectors` t1
  INNER JOIN `project.dataset.id_vectors` t2
  ON t1.id < t2.id
)
SELECT id_1, id_2, ( 
  SELECT 
    SUM(value1 * value2)/ 
    SQRT(SUM(value1 * value1))/ 
    SQRT(SUM(value2 * value2))
  FROM UNNEST(a.coords) value1 WITH OFFSET pos1 
  JOIN UNNEST(b.coords) value2 WITH OFFSET pos2 
  ON pos1 = pos2
  ) cosine_similarity
FROM pairwise t
JOIN `project.dataset.id_vectors` a ON a.id = id_1
JOIN `project.dataset.id_vectors` b ON b.id = id_2

with result

Row id_1    id_2    cosine_similarity    
1   1       2       1.0  
2   1       3       0.6708203932499369   
3   1       4       0.819891591749923    
4   1       5       0.521749194749951    
5   1       6       0.9128709291752769   
6   2       3       0.6708203932499369   
7   2       4       0.819891591749923    
8   2       5       0.521749194749951    
9   2       6       0.9128709291752769   
10  3       4       0.3333333333333334   
11  3       5       0.8333333333333335   
12  3       6       0.8164965809277261   
13  4       5       0.5000000000000001   
14  4       6       0.8164965809277261   
15  5       6       0.8164965809277261     

So, try on your real data and let's see how it will work for you :o)

And ... obviously you should pre-create / materialize pairwise table

Another optimization idea is to have pre-calculated values of SQRT(SUM(value1 * value1)) in your project.dataset.id_vectors - this can save quite CPU - this should be simple adjustment so I leave it to you :o)