Frac
Applicability
Product |
Supported |
|---|---|
Atlas 350 Accelerator Card |
√ |
√ |
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√ |
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√ |
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Function Usage
Returns decimals element-wise. The formula is as follows:

Examples:
Frac(-258.41888) = -0.41888428
Frac(5592.625) = 0.625
Prototype
- Allocate the temporary space through the API framework.
- All source operand tensors are involved in computation.
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template <typename T, bool isReuseSource = false> __aicore__ inline void Frac(const LocalTensor<T>& dstTensor, const LocalTensor<T>& srcTensor)
- All or part of the source operand tensors are involved in computation.
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template <typename T, bool isReuseSource = false> __aicore__ inline void Frac(const LocalTensor<T>& dstTensor, const LocalTensor<T>& srcTensor, const uint32_t calCount)
- All source operand tensors are involved in computation.
- Pass the temporary space through the sharedTmpBuffer input parameter.
- All source operand tensors are involved in computation.
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template <typename T, bool isReuseSource = false> __aicore__ inline void Frac(const LocalTensor<T>& dstTensor, const LocalTensor<T>& srcTensor, const LocalTensor<uint8_t>& sharedTmpBuffer)
- All or part of the source operand tensors are involved in computation.
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template <typename T, bool isReuseSource = false> __aicore__ inline void Frac(const LocalTensor<T>& dstTensor, const LocalTensor<T>& srcTensor, const LocalTensor<uint8_t>& sharedTmpBuffer, const uint32_t calCount)
- All source operand tensors are involved in computation.
Due to the complex mathematical computation involved in the internal implementation of this API, additional temporary space is required to store intermediate variables generated during computation. The temporary space can be passed by developers through the sharedTmpBuffer input parameter or allocated through the API framework.
- When the API framework is used for temporary space allocation, developers do not need to allocate the space, but must reserve the required size for the space.
- When the sharedTmpBuffer input parameter is used for passing the temporary space, the tensor serves as the temporary space. In this case, the API framework is not required for temporary space allocation. This enables developers to manage the sharedTmpBuffer space and reuse the buffer after calling the API, so that the buffer is not repeatedly allocated and deallocated, improving the flexibility and buffer utilization.
If the API framework is used, developers must reserve the temporary space. If sharedTmpBuffer is used, developers must allocate space for the tensor. To obtain the size of the temporary space (BufferSize) to be reserved, use the GetFracMaxMinTmpSize API provided in GetFracMaxMinTmpSize.
Parameters
Parameter |
Description |
|---|---|
T |
Data type of the operand. For the Atlas 350 Accelerator Card, the supported data types are half and float. For the For the For the |
isReuseSource |
Whether the source operand can be modified. This parameter is reserved. Pass the default value false. |
Parameter |
Input/Output |
Description |
|---|---|---|
dstTensor |
Output |
Destination operand. The type is LocalTensor, and TPosition can be VECIN, VECCALC, or VECOUT. |
srcTensor |
Input |
Source operand. The type is LocalTensor, and TPosition can be VECIN, VECCALC, or VECOUT. The source operand must have the same data type as the destination operand. |
sharedTmpBuffer |
Input |
Temporary buffer. The type is LocalTensor, and TPosition can be VECIN, VECCALC, or VECOUT. This parameter is used to store intermediate variables during complex computation in Frac and is provided by developers. For details about how to obtain the temporary space size (BufferSize), see GetFracMaxMinTmpSize. |
calCount |
Input |
Number of elements involved in the computation. |
Returns
None
Restrictions
- For the
Atlas inference product AI Core, the input data must be within the range of [–2147483647.0, 2147483647.0]. - The source operand address must not overlap the destination operand address.
- For details about the operand address alignment requirements, see General Address Alignment Restrictions.
Example
For a complete call example, see Frac operator sample.
1 2 3 | // dstLocal: tensor for storing the computation result // srcLocal: input tensor involved in computation AscendC::Frac<srcType, false>(dstLocal, srcLocal); |
Result example:
Input (srcLocal): [9.33, –8.07, –6.38, 8.45, 5.83, 6.46, 4.18, 1.93] Output (dstLocal): [0.33, –0.07, –0.38, 0.45, 0.83, 0.46, 0.18, 0.93]