Result for A739041CD70EA9E0266FC2F8479995209A6F55CE

Query result

Key Value
FileName./usr/include/xir/op/op_def.hpp
FileSize4011
MD526BB6733CE271A6F323314D9D989320B
SHA-1A739041CD70EA9E0266FC2F8479995209A6F55CE
SHA-2567338F2C5957DB2B1253BCC970A98F854BE8957113E954D839C94C09B8DE80CBE
SSDEEP96:G4y/XHFCmOKoAn1b2s2lk0GoWL1hdW0mqSPuU2kBoVrq+4wE5JRO6dVK3y:GvXH2An16sZZoWL1hdyq8uF7E5JRO6TL
TLSHT19881EE082976BD638E4349F2966B304782159062F726DBC0306F41649F27639B77BFA9
hashlookup:parent-total1
hashlookup:trust55

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Parents (Total: 1)

The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
FileSize17396
MD53A96DC102098768170E1637348AF93DD
PackageDescriptionXilinx Intermediate Representation (XIR) for deep learning algorithms (develop) Xilinx Intermediate Representation (XIR) is a graph based intermediate representation of the AI algorithms which is well designed for compilation and efficient deployment of the Domain-specific Processing Unit (DPU) on the FPGA platform. Advanced users can apply Whole Application Acceleration to benefit from the power of FPGA by extending the XIR to support customized IP in Vitis AI flow. . XIR includes Op, Tensor, Graph and Subgraph libraries, which providing a clear and flexible representation for the computational graph. For now, it's the foundation for the Vitis AI quantizer, compiler, runtime and many other tools. XIR provides in-memory format, and file format for different usage. The in-memory format XIR is a Graph object, and the file format is a xmodel. A Graph object can be serialized to a xmodel while the xmodel can be deserialized to the Graph object. . In the Op library, there's a well-defined set of operators to cover the wildly used deep learning frameworks, e.g. TensorFlow, Pytorch and Caffe, and all of the built-in operators for DPU. This enhences the expression ability and achieves one of the core goals of eliminating the difference between these frameworks and providing a unified representation for users and developers. . XIR also provides a Python APIs which is named PyXIR. It enables Python users to fully access XIR and benefits in a pure Python environment, e.g. co-develop and integrate users' Python project with the current XIR based tools without massive dirty work to fix the gap between two languages. . This package provides the development environment for XIR.
PackageMaintainerPunit Agrawal <punit@debian.org>
PackageNamelibxir-dev
PackageSectionlibdevel
PackageVersion1.3.2-1
SHA-12A88486F4FAF700028A887D157013A954287B836
SHA-2563B898ED22D9FAC3566F9E2368380F26F8D65458AEF6A1F355E9A6EC9672E1C28