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diff --git a/src/gpu/cl/operators/experimental/dynamic_fusion/ClCompositeOperator.cpp b/src/gpu/cl/operators/experimental/dynamic_fusion/ClCompositeOperator.cpp
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+++ b/src/gpu/cl/operators/experimental/dynamic_fusion/ClCompositeOperator.cpp
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+/*
+ * Copyright (c) 2022 Arm Limited.
+ *
+ * SPDX-License-Identifier: MIT
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to
+ * deal in the Software without restriction, including without limitation the
+ * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
+ * sell copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef ENABLE_EXPERIMENTAL_DYNAMIC_FUSION
+#error "This experimental feature must be enabled with -DENABLE_EXPERIMENTAL_DYNAMIC_FUSION"
+#endif /* ENABLE_EXPERIMENTAL_DYNAMIC_FUSION */
+#include "arm_compute/runtime/experimental/ClCompositeOperator.h"
+
+#include "arm_compute/core/experimental/ClWorkload.h"
+#include "arm_compute/core/experimental/Types.h"
+#include "src/gpu/cl/kernels/experimental/dynamic_fusion/ClCompositeKernel.h"
+#include "support/Cast.h"
+
+namespace arm_compute
+{
+namespace experimental
+{
+namespace dynamic_fusion
+{
+namespace
+{
+Status add_tensor_to_tensor_pack(int wk_tensor_id, ICLTensor *tensor, const ClWorkload &workload, TensorPackMap &prepare_pack_map, TensorPackMap &run_pack_map)
+{
+    if(tensor == nullptr)
+    {
+        return ARM_COMPUTE_CREATE_ERROR(ErrorCode::RUNTIME_ERROR, "Trying to add a nullptr into the tensor packs");
+    }
+    const auto                          bp_tensor_id = workload.tensors.at(wk_tensor_id).kernel_arg.arg_id; // blueprint tensor id
+    std::vector<ClWorkload::UnitWorkId> uwk_ids{};
+    const auto                          src_uwk_ids = workload.graph.src_ops_from_tensor(wk_tensor_id);
+    const auto                          dst_uwk_ids = workload.graph.dst_ops_from_tensor(wk_tensor_id);
+    uwk_ids.insert(uwk_ids.end(), src_uwk_ids.begin(), src_uwk_ids.end());
+    uwk_ids.insert(uwk_ids.end(), dst_uwk_ids.begin(), dst_uwk_ids.end());
+
+    for(auto uwk_id : uwk_ids)
+    {
+        TensorPackMap *pack_map  = nullptr;
+        const auto     uwk_stage = workload.unit_workloads.at(uwk_id).stage.stage;
+        switch(uwk_stage)
+        {
+            case UnitWorkloadStage::Stage::Run:
+                pack_map = &run_pack_map;
+                break;
+            case UnitWorkloadStage::Stage::Prepare:
+                pack_map = &prepare_pack_map;
+                break;
+            default:
+                return ARM_COMPUTE_CREATE_ERROR(ErrorCode::RUNTIME_ERROR, "Unsupported workload stage");
+        }
+
+        ITensorPack *tensor_pack = pack_map->find_tensor_pack(uwk_id);
+        if(tensor_pack == nullptr)
+        {
+            pack_map->add_tensor_pack(uwk_id, ITensorPack{ { bp_tensor_id, tensor } });
+        }
+        else
+        {
+            tensor_pack->add_tensor(bp_tensor_id, tensor);
+        }
+    }
+    return Status{};
+}
+
+} // namespace
+
+ITensorPack *TensorPackMap::find_tensor_pack(UnitWorkload::Id uwk_id)
+{
+    auto tensor_pack = _tensor_packs.find(uwk_id);
+    if(tensor_pack != _tensor_packs.end())
+    {
+        return &(tensor_pack->second);
+    }
+    return nullptr;
+}
+
+ITensorPack &TensorPackMap::get_tensor_pack(UnitWorkload::Id uwk_id)
+{
+    return _tensor_packs.at(uwk_id);
+}
+
+void TensorPackMap::add_tensor_pack(UnitWorkload::Id uwk_id, const ITensorPack &tensor_pack)
+{
+    _tensor_packs[uwk_id] = tensor_pack;
+}
+
+Status bind_tensors(ClAuxTensorData &aux_tensor_data, TensorPackMap &prepare_pack_map, TensorPackMap &run_pack_map, const ClWorkload &workload, const OpTensorBinding &op_tensors)
+{
+    for(auto tensor : workload.tensors)
+    {
+        const auto wk_tensor_id  = tensor.first; // workload tensor id
+        ICLTensor *tensor_object = nullptr;
+        if(tensor.second.memory_type == MemoryType::Core)
+        {
+            const auto op_tensor_id   = workload.op_tensor_id_lut.at(wk_tensor_id);
+            auto       op_tensor_find = op_tensors.find(op_tensor_id);
+            if(op_tensor_find == op_tensors.end())
+            {
+                return ARM_COMPUTE_CREATE_ERROR(ErrorCode::RUNTIME_ERROR, "Cannot find binding for some operator tensor");
+            }
+            tensor_object = utils::cast::polymorphic_downcast<ICLTensor *>(op_tensor_find->second);
+        }
+        else if(tensor.second.memory_type == MemoryType::Auxiliary)
+        {
+            // Create aux tensor CLTensor object
+            const TensorInfo tensor_info = *tensor.second.info;
+            const auto       memory_info = tensor.second.memory_info;
+            tensor_object                = aux_tensor_data.add_aux_tensor(wk_tensor_id, tensor_info, memory_info);
+        }
+        else
+        {
+            return ARM_COMPUTE_CREATE_ERROR(ErrorCode::RUNTIME_ERROR, "Unsupported tensor memory type");
+        }
+
+        const auto st = add_tensor_to_tensor_pack(wk_tensor_id, tensor_object, workload, prepare_pack_map, run_pack_map);
+        ARM_COMPUTE_RETURN_ON_ERROR(st);
+    }
+    return Status{};
+}
+
+CLTensor *ClAuxTensorData::add_aux_tensor(int tensor_id, const ITensorInfo &tensor_info, const AuxMemoryInfo &memory_info)
+{
+    auto find_tensor_pair = _owned_tensors.find(tensor_id);
+    if(find_tensor_pair == _owned_tensors.end())
+    {
+        return find_tensor_pair->second.get();
+    }
+    else
+    {
+        auto tensor        = std::make_unique<CLTensor>();
+        auto inserted_pair = _owned_tensors.emplace(tensor_id, std::move(tensor)).first;
+        auto new_tensor    = inserted_pair->second.get();
+        _tensors.emplace_back(new_tensor, tensor_info, memory_info);
+        return new_tensor;
+    }
+}
+
+std::vector<ClAuxTensorData::DataView> &ClAuxTensorData::get_tensors()
+{
+    return _tensors;
+}
+struct ClCompositeOperator::Implementation
+{
+    std::map<UnitWorkload::Id, std::unique_ptr<ClCompositeKernel>> _kernels{};
+    std::map<UnitWorkload::Id, std::unique_ptr<ClCompositeKernel>> _kernels_prep{};
+    ClWorkload _workload{};
+    bool       _is_prepared{ false };
+};
+
+ClCompositeOperator::ClCompositeOperator()
+    : _impl{ std::make_unique<Implementation>() }
+{
+}
+
+ClCompositeOperator::~ClCompositeOperator() = default;
+
+void ClCompositeOperator::configure(const CLCompileContext &ctx, const ClWorkload &workload)
+{
+    ARM_COMPUTE_ERROR_THROW_ON(ClCompositeOperator::validate(workload));
+    _impl->_workload = workload;
+
+    // Traverse workloads in topological order
+    const auto sorted = workload.graph.topological_sort().second;
+    for(const auto &node : sorted)
+    {
+        auto work  = workload.unit_workloads.at(node.op);
+        auto stage = work.stage.stage;
+        auto k     = std::make_unique<ClCompositeKernel>();
+        k->configure(ctx, work.code);
+
+        switch(stage)
+        {
+            case UnitWorkloadStage::Stage::Run:
+                _impl->_kernels.emplace(work.id, std::move(k));
+                break;
+            case UnitWorkloadStage::Stage::Prepare:
+                _impl->_kernels_prep.emplace(work.id, std::move(k));
+                break;
+            default:
+                ARM_COMPUTE_ERROR("Invalid stage");
+        }
+        break;
+    }
+}
+
+Status ClCompositeOperator::validate(const ClWorkload &workload)
+{
+    return workload.status;
+}
+
+void ClCompositeOperator::prepare(TensorPackMap &tensor_pack_map)
+{
+    if(!_impl->_is_prepared)
+    {
+        for(auto &id_kernel_pair : _impl->_kernels_prep)
+        {
+            const bool flush_queue = false;
+            const auto uwk_id      = id_kernel_pair.first;
+            auto       kernel      = id_kernel_pair.second.get();
+            CLScheduler::get().enqueue_op(*kernel, tensor_pack_map.get_tensor_pack(uwk_id), ClExecutionDescriptor{}, flush_queue);
+        }
+
+        _impl->_is_prepared = true;
+    }
+}
+
+void ClCompositeOperator::run(TensorPackMap &tensor_pack_map)
+{
+    ARM_COMPUTE_ERROR_ON_MSG(!_impl->_is_prepared, "Operator is not prepared");
+
+    for(auto &id_kernel_pair : _impl->_kernels)
+    {
+        // Flush the command queue on the last kernel
+        const bool flush_queue = false;
+        const auto uwk_id      = id_kernel_pair.first;
+        auto       kernel      = id_kernel_pair.second.get();
+        CLScheduler::get().enqueue_op(*kernel, tensor_pack_map.get_tensor_pack(uwk_id), ClExecutionDescriptor{}, flush_queue);
+    }
+}
+
+} // namespace dynamic_fusion
+} // namespace experimental
+} // namespace arm_compute
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