Routing API 7
China specific
Routing API Developer's Guide

# Recommendations for Splitting Large Matrices

Assume that the large matrix MxN is a matrix that exceeds the Routing API limits. When M is the number of starts and N is the number of destinations, the matrix should be split for computation as suggested in the table below to get results within an optimal response time.

Matrix dimension type Split method Example
Large vector 1xN Maximize the number of destinations per request. Split vector 1x5043 into 50 1x100 requests and one (1) 1x43 request. This results in a total of 51 requests.
Large vector Mx1 Maximize the number of starts per request. Split vector 5043x1 into 50 100x1 requests and one (1) 43x1 request. This results in a total of 51 requests.
Large matrix MxN, where N > 1 and M > 100*N Maximize the number of starts per request with one destination. Split the matrix 5043x20 into 20 separate instances of 50 100x1 requests and one (1) 43x1 request. The total is calculated as follows: 20*(50+1) = 1020 requests.
Large matrix MxN, where M > 1 and N > 1 Maximize number of starts and destinations per request. Split the matrix 3000x4043 into 200 separate instances of 40 15x100 requests and one (1) 15x43 request. The total is calculated as follows: 200*(40+1) = 8200 requests.

If you need to further improve your response times, group the destinations that are close to each other in requests. The closer destinations are to each other in a request, the shorter the response time tends to be. This is an approach that you can use in cases where you maximize the number of destinations.

You can use a similar approach in cases where you maximize the number of starts by grouping starts that are close to each other in requests.