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Snapdragon NPE Survey

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qingqing01 edited this page Nov 29, 2017 · 8 revisions

Architecture

  • Convert model to DLC(Deep Learning Container) file.
    • Support Caffe, Caffe2, TensorFlow
  • Use SNPE (Snapdragon Neural Processing Engine) to run the model.
  • Support Snapdragon CPU, Adreno GPU, HexagonTM DSP (fixed point).

C++ API

  1. Get Available Runtime: CPU,GPU or DSP.
static zdl::DlSystem::Runtime_t Runtime;
if (zdl::SNPE::SNPEFactory::isRuntimeAvailable(zdl::DlSystem::Runtime_t::GPU)) {
  Runtime = zdl::DlSystem::Runtime_t::GPU;
} else {
   Runtime = zdl::DlSystem::Runtime_t::CPU;
}
  1. Load Container (called load model)
std::unique_ptr<zdl::DlContainer::IDlContainer> container;
container = zdl::DlContainer::IDlContainer::open(dlc_file);
  1. Set Network Builder Options Based on the Container
std::unique_ptr<zdl::SNPE::SNPE> snpe;
zdl::SNPE::SNPEBuilder snpeBuilder(container.get());
snpe = snpeBuilder.setOutputLayers({})
       .setRuntimeProcessor(runtime)
       .setUdlBundle(udlBundle)
       .setUseUserSuppliedBuffers(useUserSuppliedBuffers)
       .build();

  1. Load Network Inputs

    Network inputs and outputs can be either user-backed buffers or ITensors (built-in SNPE buffers), but not both. The advantage of using user-backed buffers is that it eliminates an extra copy from user buffers to create ITensors. 

    • zdl::DlSystem::UserBufferMap& userBufferMap
    • zdl::DlSystem::ITensor

  2. Execute the Network & Process Output

    zdl::SNPE::SNPE snpe;
zdl::DlSystem::UserBufferMap& inputMap;
zdl::DlSystem::UserBufferMap& outputMap;
snpe->execute(inputMap, outputMap);

// or use TensorMap 
// bool execute(const zdl::DlSystem::TensorMap &input,
//             zdl::DlSystem::TensorMap &output) noexcept;

  3. Summary

    • zdl::DlContainer::IDlContainer
    • zdl::SNPE::SNPEBuilder
    • zdl::SNPE::SNPE
    • zdl::DlSystem::ITensor
      • zdl::SNPE::SNPEFactory::getTensorFactory().createTensor
    • zdl::DlSystem::TensorMap
    • zdl::DlSystem::UserBufferMap

Benchmark

Not testing, the number is from the doc.

  • Performance

    • Running on the GPU
      • Typically, 6X-10X speed compared with CPU
      • However, 4-6ms overhead for network execution on the GPU. Small network(less than 10ms on the GPU) run faster on CPU.

  • Size

Lib libSNPE.so libSNPE_G.so
arm-android-gcc4.9 3.4M 1.7M
aarch64-android-gcc4.9 8.2M 7.2M

How to integrate in caffe2?

  • SNPEOp

    • One input is DLC model buffer.
    with open('submodel.dlc', 'rb') as f:
  dlc = f.read()
op = core.CreateOperator('SNPE', ['data_in'], ['data_out'],
       arg=[
           utils.MakeArgument("model_buffer", dlc),
           utils.MakeArgument("input_name", "data") 
       ]
   )
    • Wrap the C++ APIs of SPNE, then use these interfaces in SNPEOp: see snpe_ffi.cc
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