Just a note that if you are doing a sequence of searches, the performance gain from doing something clever like converting to string, might be lost in the outer loop if the search dimension isn't big enough. See how the performance of iterating find1 that uses the string conversion trick proposed above and find2 that uses argmax along the inner axis (plus an adjustment to ensure a non-match returns as -1)

```
import numpy,time
def find1(arr,value):
return (arr==value).tostring().find('\x01')
def find2(arr,value): #find value over inner most axis, and return array of indices to the match
b = arr==value
return b.argmax(axis=-1) - ~(b.any())
for size in [(1,100000000),(10000,10000),(1000000,100),(10000000,10)]:
print(size)
values = numpy.random.choice([0,0,0,0,0,0,0,1],size=size)
v = values>0
t=time.time()
numpy.apply_along_axis(find1,-1,v,1)
print('find1',time.time()-t)
t=time.time()
find2(v,1)
print('find2',time.time()-t)
```

outputs

```
(1, 100000000)
('find1', 0.25300002098083496)
('find2', 0.2780001163482666)
(10000, 10000)
('find1', 0.46200013160705566)
('find2', 0.27300000190734863)
(1000000, 100)
('find1', 20.98099994659424)
('find2', 0.3040001392364502)
(10000000, 10)
('find1', 206.7590000629425)
('find2', 0.4830000400543213)
```

That said, a find written in C would be at least a little faster than either of these approaches