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I calculated logarithm in GPU with math.log, which is one of the Supported Python features in CUDA Python. But failed.

My code:

import os,sys,time,math
import pandas as pd
import numpy as np

from numba import cuda, float32

import os

bpg = (3,1) 
tpb = (2,3) 

@cuda.jit
def calcu_T(D,T):


    bx = cuda.blockIdx.x

    tx = cuda.threadIdx.x
    ty = cuda.threadIdx.y

    c_num = D.shape[1]

    ml = math.log(D[tx,ty],2)

D = np.array([[ 0.42487645,0.41607881,0.42027071,0.43751907,0.43512794,0.43656972,0.43940639,0.43864551,0.43447691,0.43120232],
              [2.989578,2.834707,2.942902,3.294948,2.868170,2.975180,3.066900,2.712719,2.835360,2.607334]], dtype=np.float32)
T = np.empty([1,1])

dD = cuda.to_device(D)
dT = cuda.device_array_like(T)
calcu_T[bpg, tpb](dD,dT)

The error report:

Traceback (most recent call last):
  File "G:\myworkspace\python3.5\forte\forte170327\test7.py", line 104, in <module>
    calcu_T[bpg, tpb](dD,dT)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 701, in __call__
    kernel = self.specialize(*args)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 712, in specialize
    kernel = self.compile(argtypes)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 727, in compile
    **self.targetoptions)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 36, in core
    return fn(*args, **kwargs)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 75, in compile_kernel
    cres = compile_cuda(pyfunc, types.void, args, debug=debug, inline=inline)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 36, in core
    return fn(*args, **kwargs)
  File "D:\python3.5.3\lib\site-packages\numba\cuda\compiler.py", line 64, in compile_cuda
    locals={})
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 699, in compile_extra
    return pipeline.compile_extra(func)
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 352, in compile_extra
    return self._compile_bytecode()
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 660, in _compile_bytecode
    return self._compile_core()
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 647, in _compile_core
    res = pm.run(self.status)
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 238, in run
    raise patched_exception
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 230, in run
    stage()
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 444, in stage_nopython_frontend
    self.locals)
  File "D:\python3.5.3\lib\site-packages\numba\compiler.py", line 800, in type_inference_stage
    infer.propagate()
  File "D:\python3.5.3\lib\site-packages\numba\typeinfer.py", line 767, in propagate
    raise errors[0]
  File "D:\python3.5.3\lib\site-packages\numba\typeinfer.py", line 128, in propagate
    constraint(typeinfer)
  File "D:\python3.5.3\lib\site-packages\numba\typeinfer.py", line 379, in __call__
    self.resolve(typeinfer, typevars, fnty)
  File "D:\python3.5.3\lib\site-packages\numba\typeinfer.py", line 401, in resolve
    raise TypingError(msg, loc=self.loc)
numba.errors.TypingError: Failed at nopython (nopython frontend)
Invalid usage of Function(<built-in function log>) with parameters (float32, int64)
Known signatures:
 * (int64,) -> float64
 * (uint64,) -> float64
 * (float32,) -> float32
 * (float64,) -> float64
File "G:\myworkspace\python3.5\forte\forte170327\test7.py", line 28
[1] During: resolving callee type: Function(<built-in function log>)
[2] During: typing of call at G:\myworkspace\python3.5\forte\forte170327\test7.py (28)

It's a TypingError? How could I correct it?

I run these code with the the CUDA Simulator( here shows in detial), it has no error. Why?

2
  • "Invalid usage of Function(<built-in function log>) with parameters (float32, int64)" is a pretty clear error message
    – talonmies
    Apr 10, 2017 at 9:10
  • Yes, I've also noticed this. So I try ml = math.log(D[tx,ty],float32(2)) and ml = math.log(D[tx,ty])/math.log(float32(2)). But error again. At last, ee = math.log(float32(2)); ml = math.log(D[tx,ty])/ee succeeded. I want to know whether it doesn't support math.log(x,2) , and just support math.log(x).
    – glen
    Apr 10, 2017 at 11:21

1 Answer 1

1

The numba runtime is telling you the problem

Invalid usage of Function(<built-in function log>) with parameters (float32, int64)
Known signatures:
 * (int64,) -> float64
 * (uint64,) -> float64
 * (float32,) -> float32
 * (float64,) -> float64

i.e. the only signatures available have one argument. A base argument is not implemented. If you look here at the source you can see that math.log appears to bind directly to the CUDA log function, which only calculates the natural logarithm.

My guess is that this is a documentation error in Numba. If it bothers you, I suggest you report it.

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