This question is complex, so please ask questions for explaining more detail on this quesiton. (ps. Im not native English speaker, thats why...)

the input is that ** sample sequence** with length of 34, while the output is the

**result**part

For now, I have a sequence ** sample** that is

**length of 34**, it may be constructed as: ("result" is what I need)

The ** sample sequence** =

**result**part +

**known sequence**(I didnt know the length of

**result**part)

**result**(length 34)**result**(length N, N < 34) +**known sequence**(34 - N)

All those numbers in sequence are random.

Right now, I need to find **result** part without including the **sequence known** part.

Some background info:

I have 10 millions this

with length of 34. (10 millions of knowing 34 digits random number sequence from generator)*sample*sequenceAfter I find the result, I will need to make it to compare on a 5 million length of sequence

*B*, and find if the result sequence is uniquely match on the long sequence somewhere.

My current algrothm is to use a **detector** which is first 10 digits of **known sequence**, and remove the sequence after if I detect detecter sequence somewhere in ** sample sequence**. However, there is still a chance that

**result**contains the part of sequence inside of the

**known sequence**. Does anyone has a better algrothm?

Thanks so much! In addition, I'm programming this under python.

ex.

**1st condition**:

199010104761700150004736290473629657 == sample seq

all are result and known part still the same

input:

199010104761700150004736290473629657

output:

199010104761700150004736290473629657

**2nd condition**:

199010104728392817111123995561547659 == sample seq

1990101047 == result part

28392817111123995561547659... == known part

input will be: 199010104728392817111123995561547659, 28392817111123995561547659...

output I want is: 1990101047