diff --git a/cbits/silero/detector.h b/cbits/silero/detector.h
new file mode 100644
--- /dev/null
+++ b/cbits/silero/detector.h
@@ -0,0 +1,35 @@
+#ifndef SILERO_DETECTOR_H
+#define SILERO_DETECTOR_H
+
+#include <stdio.h>
+#include "model.h"
+#include "math.h"
+#include "../vec.h"
+
+struct SpeechSegment {
+  int start_index;
+  int end_index;
+  float start_time;
+  float end_time;
+};
+
+struct VoiceDetector {
+  struct SileroModel *model;
+  float start_threshold;
+  float end_threshold;
+  float min_speech_samples;
+  float max_speech_samples;
+  float speech_pad_samples;
+  float min_silence_samples;
+  float min_silence_samples_at_max_speech;
+};
+
+void detect_segments(
+  struct VoiceDetector *vad,
+  const size_t samples_length,
+  const float *samples,
+  size_t *out_segments_length,
+  struct SpeechSegment **out_segments
+);
+
+#endif
diff --git a/cbits/silero/model.h b/cbits/silero/model.h
new file mode 100644
--- /dev/null
+++ b/cbits/silero/model.h
@@ -0,0 +1,33 @@
+#ifndef SILERO_MODEL_H
+#define SILERO_MODEL_H
+
+#include "../../lib/onnxruntime/onnxruntime_c_api.h"
+
+#define WINDOW_LENGTH 512
+#define WINDOW_BYTES WINDOW_LENGTH * sizeof(float)
+
+#define SAMPLE_RATE 16000
+
+int64_t get_window_length();
+int64_t get_sample_rate();
+
+struct SileroModel
+{
+  const struct OrtApi *api;
+  OrtEnv *env;
+  OrtSessionOptions *session_options;
+  OrtSession *session;
+  OrtMemoryInfo *memory_info;
+  float *state;
+  float *context;
+  float *buffer;
+  int64_t input_shape[2];
+  bool is_first_run;
+};
+
+struct SileroModel *load_model(OrtApiBase *(*ortGetApiBase)(), const void *model_path);
+void release_model(struct SileroModel *model);
+void reset_model(struct SileroModel *model);
+float detect_speech(struct SileroModel *model, const float *samples);
+
+#endif
diff --git a/cbits/vec.h b/cbits/vec.h
new file mode 100644
--- /dev/null
+++ b/cbits/vec.h
@@ -0,0 +1,129 @@
+/*
+BSD 3-Clause License
+
+Copyright (c) 2024, Mashpoe
+All rights reserved.
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions are met:
+
+1. Redistributions of source code must retain the above copyright notice, this
+   list of conditions and the following disclaimer.
+
+2. Redistributions in binary form must reproduce the above copyright notice,
+   this list of conditions and the following disclaimer in the documentation
+   and/or other materials provided with the distribution.
+
+3. Neither the name of the copyright holder nor the names of its
+   contributors may be used to endorse or promote products derived from
+   this software without specific prior written permission.
+
+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+*/
+
+#ifndef vec_h
+#define vec_h
+
+#ifdef __cpp_decltype
+#include <type_traits>
+#define typeof(T) std::remove_reference<std::add_lvalue_reference<decltype(T)>::type>::type
+#endif
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#include <stdbool.h>
+#include <stdlib.h>
+
+#define vector(type) type *
+
+// generic type for internal use
+typedef void* vector;
+// number of elements in a vector
+typedef size_t vec_size_t;
+// number of bytes for a type
+typedef size_t vec_type_t;
+
+// TODO: more rigorous check for typeof support with different compilers
+#if _MSC_VER == 0 || __STDC_VERSION__ >= 202311L || defined __cpp_decltype
+
+// shortcut defines
+
+// vec_addr is a vector* (aka type**)
+#define vector_add_dst(vec_addr)\
+	((typeof(*vec_addr))(\
+	    _vector_add_dst((vector*)vec_addr, sizeof(**vec_addr))\
+	))
+#define vector_insert_dst(vec_addr, pos)\
+	((typeof(*vec_addr))(\
+	    _vector_insert_dst((vector*)vec_addr, sizeof(**vec_addr), pos)))
+
+#define vector_add(vec_addr, value)\
+	(*vector_add_dst(vec_addr) = value)
+#define vector_insert(vec_addr, pos, value)\
+	(*vector_insert_dst(vec_addr, pos) = value)
+
+#else
+
+#define vector_add_dst(vec_addr, type)\
+	((type*)_vector_add_dst((vector*)vec_addr, sizeof(type)))
+#define vector_insert_dst(vec_addr, type, pos)\
+	((type*)_vector_insert_dst((vector*)vec_addr, sizeof(type), pos))
+
+#define vector_add(vec_addr, type, value)\
+	(*vector_add_dst(vec_addr, type) = value)
+#define vector_insert(vec_addr, type, pos, value)\
+	(*vector_insert_dst(vec_addr, type, pos) = value)
+
+#endif
+
+// vec is a vector (aka type*)
+#define vector_erase(vec, pos, len)\
+	(_vector_erase((vector)vec, sizeof(*vec), pos, len))
+#define vector_remove(vec, pos)\
+	(_vector_remove((vector)vec, sizeof(*vec), pos))
+
+#define vector_reserve(vec_addr, capacity)\
+	(_vector_reserve((vector*)vec_addr, sizeof(**vec_addr), capacity))
+
+#define vector_copy(vec)\
+	(_vector_copy((vector)vec, sizeof(*vec)))
+
+vector vector_create(void);
+
+void vector_free(vector vec);
+
+void* _vector_add_dst(vector* vec_addr, vec_type_t type_size);
+
+void* _vector_insert_dst(vector* vec_addr, vec_type_t type_size, vec_size_t pos);
+
+void _vector_erase(vector vec_addr, vec_type_t type_size, vec_size_t pos, vec_size_t len);
+
+void _vector_remove(vector vec_addr, vec_type_t type_size, vec_size_t pos);
+
+void vector_pop(vector vec);
+
+void _vector_reserve(vector* vec_addr, vec_type_t type_size, vec_size_t capacity);
+
+vector _vector_copy(vector vec, vec_type_t type_size);
+
+vec_size_t vector_size(vector vec);
+
+vec_size_t vector_capacity(vector vec);
+
+// closing bracket for extern "C"
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* vec_h */
diff --git a/lib/onnxruntime/onnxruntime_c_api.h b/lib/onnxruntime/onnxruntime_c_api.h
new file mode 100644
--- /dev/null
+++ b/lib/onnxruntime/onnxruntime_c_api.h
@@ -0,0 +1,4944 @@
+// Copyright (c) Microsoft Corporation. All rights reserved.
+// Licensed under the MIT License.
+
+// See docs\c_cxx\README.md on generating the Doxygen documentation from this file
+
+/** \mainpage ONNX Runtime
+ *
+ * ONNX Runtime is a high-performance inference and training graph execution engine for deep learning models.
+ *
+ * ONNX Runtime's C, C++ APIs offer an easy to use interface to onboard and execute onnx models.
+ * - \subpage c_cpp_api "Core C, C++ APIs"
+ * - \subpage training_c_cpp_api "Training C, C++ APIs for on-device training"
+ *
+ * \page c_cpp_api Core C, C++ APIs
+ * <h1>C</h1>
+ *
+ * ::OrtApi - Click here to go to the structure with all C API functions.
+ *
+ * <h1>C++</h1>
+ *
+ * ::Ort - Click here to go to the namespace holding all of the C++ wrapper classes
+ *
+ * It is a set of header only wrapper classes around the C API. The goal is to turn the C style return value error codes into C++ exceptions, and to
+ * automate memory management through standard C++ RAII principles.
+ *
+ * \addtogroup Global
+ * ONNX Runtime C API
+ * @{
+ */
+
+#pragma once
+#include <stdbool.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <string.h>
+
+/** \brief The API version defined in this header
+ *
+ * This value is used by some API functions to behave as this version of the header expects.
+ */
+#define ORT_API_VERSION 20
+
+#ifdef __cplusplus
+extern "C"
+{
+#endif
+
+//! @}
+// SAL2 Definitions
+#ifndef _WIN32
+#define _In_
+#define _In_z_
+#define _In_opt_
+#define _In_opt_z_
+#define _Out_
+#define _Outptr_
+#define _Out_opt_
+#define _Inout_
+#define _Inout_opt_
+#define _Frees_ptr_opt_
+#define _Ret_maybenull_
+#define _Ret_notnull_
+#define _Check_return_
+#define _Outptr_result_maybenull_
+#define _In_reads_(X)
+#define _Inout_updates_(X)
+#define _Out_writes_(X)
+#define _Inout_updates_all_(X)
+#define _Out_writes_bytes_all_(X)
+#define _Out_writes_all_(X)
+#define _Success_(X)
+#define _Outptr_result_buffer_maybenull_(X)
+#define ORT_ALL_ARGS_NONNULL __attribute__((nonnull))
+#else
+#include <specstrings.h>
+#define ORT_ALL_ARGS_NONNULL
+#define _Frees_ptr_opt_
+#endif
+
+#ifdef _WIN32
+// Define ORT_DLL_IMPORT if your program is dynamically linked to Ort.
+// dllexport is not used, we use a .def file.
+#ifdef ORT_DLL_IMPORT
+#define ORT_EXPORT __declspec(dllimport)
+#else
+#define ORT_EXPORT
+#endif
+#define ORT_API_CALL _stdcall
+#define ORT_MUST_USE_RESULT
+#define ORTCHAR_T wchar_t
+#else
+// To make symbols visible on macOS/iOS
+#ifdef __APPLE__
+#define ORT_EXPORT __attribute__((visibility("default")))
+#else
+#define ORT_EXPORT
+#endif
+#define ORT_API_CALL
+#define ORT_MUST_USE_RESULT __attribute__((warn_unused_result))
+#define ORTCHAR_T char
+#endif
+
+/// ORTCHAR_T, ORT_TSTR are reserved specifically for path handling.
+/// All other strings are UTF-8 encoded, use char and std::string
+#ifndef ORT_TSTR
+#ifdef _WIN32
+#define ORT_TSTR(X) L##X
+// When X is a macro, L##X is not defined. In this case, we need to use ORT_TSTR_ON_MACRO.
+#define ORT_TSTR_ON_MACRO(X) L"" X
+#else
+#define ORT_TSTR(X) X
+#define ORT_TSTR_ON_MACRO(X) X
+#endif
+#endif
+
+// On Windows, ORT_FILE is a wchar_t version of the __FILE__ macro.
+// Otherwise, ORT_FILE is equivalent to __FILE__.
+#ifndef ORT_FILE
+#define ORT_FILE_INTERNAL(x) ORT_TSTR(x)
+#define ORT_FILE ORT_FILE_INTERNAL(__FILE__)
+#endif
+
+  // Any pointer marked with _In_ or _Out_, cannot be NULL.
+
+  // Windows users should use unicode paths when possible to bypass the MAX_PATH limitation
+  // Every pointer marked with _In_ or _Out_, cannot be NULL. Caller should ensure that.
+  // for ReleaseXXX(...) functions, they can accept NULL pointer.
+
+#ifdef __cplusplus
+// For any compiler with C++11 support, MSVC 2015 and greater, or Clang version supporting noexcept.
+// Such complex condition is needed because compilers set __cplusplus value differently.
+#ifndef __has_feature
+#define __has_feature(x) 0
+#endif
+#if ((__cplusplus >= 201103L) || (_MSC_VER >= 1900) || (defined(__has_feature) && __has_feature(cxx_noexcept)))
+#define NO_EXCEPTION noexcept
+#else
+#define NO_EXCEPTION throw()
+#endif
+#else
+#define NO_EXCEPTION
+#endif
+
+// __VA_ARGS__ on Windows and Linux are different
+#define ORT_API(RETURN_TYPE, NAME, ...) RETURN_TYPE ORT_API_CALL NAME(__VA_ARGS__) NO_EXCEPTION
+
+#define ORT_API_STATUS(NAME, ...)                                                                   \
+  _Success_(return == 0) _Check_return_ _Ret_maybenull_ OrtStatusPtr ORT_API_CALL NAME(__VA_ARGS__) \
+  NO_EXCEPTION ORT_MUST_USE_RESULT
+
+// XXX: Unfortunately, SAL annotations are known to not work with function pointers
+#define ORT_API2_STATUS(NAME, ...) \
+  _Check_return_ _Ret_maybenull_ OrtStatusPtr(ORT_API_CALL *NAME)(__VA_ARGS__) NO_EXCEPTION ORT_MUST_USE_RESULT
+
+// Used in *.cc files. Almost as same as ORT_API_STATUS, except without ORT_MUST_USE_RESULT and ORT_EXPORT
+#define ORT_API_STATUS_IMPL(NAME, ...) \
+  _Success_(return == 0) _Check_return_ _Ret_maybenull_ OrtStatusPtr ORT_API_CALL NAME(__VA_ARGS__) NO_EXCEPTION
+
+#define ORT_CLASS_RELEASE(X) void(ORT_API_CALL * Release##X)(_Frees_ptr_opt_ Ort##X * input)
+
+#ifdef __DOXYGEN__
+#undef ORT_API_STATUS
+#define ORT_API_STATUS(NAME, ...) OrtStatus *NAME(__VA_ARGS__)
+#undef ORT_API2_STATUS
+#define ORT_API2_STATUS(NAME, ...) OrtStatus *NAME(__VA_ARGS__)
+#undef ORT_CLASS_RELEASE
+#define ORT_CLASS_RELEASE(X) void Release##X(Ort##X *input)
+#undef NO_EXCEPTION
+#define NO_EXCEPTION
+#endif
+  /** \addtogroup Global
+   * ONNX Runtime C API
+   * @{
+   */
+
+  /** Copied from TensorProto::DataType
+   * Currently, Ort doesn't support complex64, complex128
+   */
+  typedef enum ONNXTensorElementDataType
+  {
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UNDEFINED,
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT,  // maps to c type float
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT8,  // maps to c type uint8_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_INT8,   // maps to c type int8_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT16, // maps to c type uint16_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_INT16,  // maps to c type int16_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_INT32,  // maps to c type int32_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_INT64,  // maps to c type int64_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_STRING, // maps to c++ type std::string
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_BOOL,
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT16,
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_DOUBLE,     // maps to c type double
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT32,     // maps to c type uint32_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT64,     // maps to c type uint64_t
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_COMPLEX64,  // complex with float32 real and imaginary components
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_COMPLEX128, // complex with float64 real and imaginary components
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_BFLOAT16,   // Non-IEEE floating-point format based on IEEE754 single-precision
+    // float 8 types were introduced in onnx 1.14, see https://onnx.ai/onnx/technical/float8.html
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT8E4M3FN,   // Non-IEEE floating-point format based on IEEE754 single-precision
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT8E4M3FNUZ, // Non-IEEE floating-point format based on IEEE754 single-precision
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT8E5M2,     // Non-IEEE floating-point format based on IEEE754 single-precision
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_FLOAT8E5M2FNUZ, // Non-IEEE floating-point format based on IEEE754 single-precision
+    // Int4 types were introduced in ONNX 1.16. See https://onnx.ai/onnx/technical/int4.html
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_UINT4, // maps to a pair of packed uint4 values (size == 1 byte)
+    ONNX_TENSOR_ELEMENT_DATA_TYPE_INT4   // maps to a pair of packed int4 values (size == 1 byte)
+  } ONNXTensorElementDataType;
+
+  // Synced with onnx TypeProto oneof
+  typedef enum ONNXType
+  {
+    ONNX_TYPE_UNKNOWN,
+    ONNX_TYPE_TENSOR,
+    ONNX_TYPE_SEQUENCE,
+    ONNX_TYPE_MAP,
+    ONNX_TYPE_OPAQUE,
+    ONNX_TYPE_SPARSETENSOR,
+    ONNX_TYPE_OPTIONAL
+  } ONNXType;
+
+  // These types are synced with internal
+  // SparseFormatFlags
+  typedef enum OrtSparseFormat
+  {
+    ORT_SPARSE_UNDEFINED = 0,
+    ORT_SPARSE_COO = 0x1,
+    ORT_SPARSE_CSRC = 0x2,
+    ORT_SPARSE_BLOCK_SPARSE = 0x4
+  } OrtSparseFormat;
+
+  // Enum allows to query sparse tensor indices
+  enum OrtSparseIndicesFormat
+  {
+    ORT_SPARSE_COO_INDICES,
+    ORT_SPARSE_CSR_INNER_INDICES,
+    ORT_SPARSE_CSR_OUTER_INDICES,
+    ORT_SPARSE_BLOCK_SPARSE_INDICES
+  };
+
+  /** \brief Logging severity levels
+   *
+   * In typical API usage, specifying a logging severity level specifies the minimum severity of log messages to show.
+   */
+  typedef enum OrtLoggingLevel
+  {
+    ORT_LOGGING_LEVEL_VERBOSE, ///< Verbose informational messages (least severe).
+    ORT_LOGGING_LEVEL_INFO,    ///< Informational messages.
+    ORT_LOGGING_LEVEL_WARNING, ///< Warning messages.
+    ORT_LOGGING_LEVEL_ERROR,   ///< Error messages.
+    ORT_LOGGING_LEVEL_FATAL,   ///< Fatal error messages (most severe).
+  } OrtLoggingLevel;
+
+  typedef enum OrtErrorCode
+  {
+    ORT_OK,
+    ORT_FAIL,
+    ORT_INVALID_ARGUMENT,
+    ORT_NO_SUCHFILE,
+    ORT_NO_MODEL,
+    ORT_ENGINE_ERROR,
+    ORT_RUNTIME_EXCEPTION,
+    ORT_INVALID_PROTOBUF,
+    ORT_MODEL_LOADED,
+    ORT_NOT_IMPLEMENTED,
+    ORT_INVALID_GRAPH,
+    ORT_EP_FAIL,
+  } OrtErrorCode;
+
+  typedef enum OrtOpAttrType
+  {
+    ORT_OP_ATTR_UNDEFINED = 0,
+    ORT_OP_ATTR_INT,
+    ORT_OP_ATTR_INTS,
+    ORT_OP_ATTR_FLOAT,
+    ORT_OP_ATTR_FLOATS,
+    ORT_OP_ATTR_STRING,
+    ORT_OP_ATTR_STRINGS,
+  } OrtOpAttrType;
+
+//! @}
+#define ORT_RUNTIME_CLASS(X) \
+  struct Ort##X;             \
+  typedef struct Ort##X Ort##X
+
+  /** \addtogroup Global
+   * ONNX Runtime C API
+   * @{
+   */
+  // The actual types defined have an Ort prefix
+  ORT_RUNTIME_CLASS(Env);
+  ORT_RUNTIME_CLASS(Status); // nullptr for Status* indicates success
+  ORT_RUNTIME_CLASS(MemoryInfo);
+  ORT_RUNTIME_CLASS(IoBinding);
+  ORT_RUNTIME_CLASS(Session); // Don't call ReleaseSession from Dllmain (because session owns a thread pool)
+  ORT_RUNTIME_CLASS(Value);
+  ORT_RUNTIME_CLASS(RunOptions);
+  ORT_RUNTIME_CLASS(TypeInfo);
+  ORT_RUNTIME_CLASS(TensorTypeAndShapeInfo);
+  ORT_RUNTIME_CLASS(MapTypeInfo);
+  ORT_RUNTIME_CLASS(SequenceTypeInfo);
+  ORT_RUNTIME_CLASS(OptionalTypeInfo);
+  ORT_RUNTIME_CLASS(SessionOptions);
+  ORT_RUNTIME_CLASS(CustomOpDomain);
+  ORT_RUNTIME_CLASS(ModelMetadata);
+  ORT_RUNTIME_CLASS(ThreadPoolParams);
+  ORT_RUNTIME_CLASS(ThreadingOptions);
+  ORT_RUNTIME_CLASS(ArenaCfg);
+  ORT_RUNTIME_CLASS(PrepackedWeightsContainer);
+  ORT_RUNTIME_CLASS(TensorRTProviderOptionsV2);
+  ORT_RUNTIME_CLASS(CUDAProviderOptionsV2);
+  ORT_RUNTIME_CLASS(CANNProviderOptions);
+  ORT_RUNTIME_CLASS(DnnlProviderOptions);
+  ORT_RUNTIME_CLASS(Op);
+  ORT_RUNTIME_CLASS(OpAttr);
+  ORT_RUNTIME_CLASS(Logger);
+  ORT_RUNTIME_CLASS(ShapeInferContext);
+  ORT_RUNTIME_CLASS(LoraAdapter);
+
+#ifdef _WIN32
+  typedef _Return_type_success_(return == 0) OrtStatus *OrtStatusPtr;
+#else
+typedef OrtStatus *OrtStatusPtr;
+#endif
+
+  /** \brief Memory allocation interface
+   *
+   * Structure of function pointers that defines a memory allocator. This can be created and filled in by the user for custom allocators.
+   *
+   * When an allocator is passed to any function, be sure that the allocator object is not destroyed until the last allocated object using it is freed.
+   */
+  typedef struct OrtAllocator
+  {
+    uint32_t version;                                                                   ///< Must be initialized to ORT_API_VERSION
+    void *(ORT_API_CALL *Alloc)(struct OrtAllocator *this_, size_t size);               ///< Returns a pointer to an allocated block of `size` bytes
+    void(ORT_API_CALL *Free)(struct OrtAllocator *this_, void *p);                      ///< Free a block of memory previously allocated with OrtAllocator::Alloc
+    const struct OrtMemoryInfo *(ORT_API_CALL *Info)(const struct OrtAllocator *this_); ///< Return a pointer to an ::OrtMemoryInfo that describes this allocator
+    /**
+     * @brief Optional allocation function to use for memory allocations made during session initialization.
+     * Use this function if you want to separate allocations made by ORT during Run() calls from
+     * those made during session initialization. This allows for separate memory management strategies for these allocations.
+     */
+    void *(ORT_API_CALL *Reserve)(struct OrtAllocator *this_, size_t size); ///< Returns a pointer to an allocated block of `size` bytes
+  } OrtAllocator;
+
+  typedef void(ORT_API_CALL *OrtLoggingFunction)(
+      void *param, OrtLoggingLevel severity, const char *category, const char *logid, const char *code_location,
+      const char *message);
+
+  /** \brief Graph optimization level
+   *
+   * Refer to https://www.onnxruntime.ai/docs/performance/graph-optimizations.html#graph-optimization-levels
+   * for an in-depth understanding of the Graph Optimization Levels.
+   */
+  typedef enum GraphOptimizationLevel
+  {
+    ORT_DISABLE_ALL = 0,
+    ORT_ENABLE_BASIC = 1,
+    ORT_ENABLE_EXTENDED = 2,
+    ORT_ENABLE_ALL = 99
+  } GraphOptimizationLevel;
+
+  typedef enum ExecutionMode
+  {
+    ORT_SEQUENTIAL = 0,
+    ORT_PARALLEL = 1,
+  } ExecutionMode;
+
+  /** \brief Language projection identifiers
+   * /see OrtApi::SetLanguageProjection
+   */
+  typedef enum OrtLanguageProjection
+  {
+    ORT_PROJECTION_C = 0,
+    ORT_PROJECTION_CPLUSPLUS = 1,
+    ORT_PROJECTION_CSHARP = 2,
+    ORT_PROJECTION_PYTHON = 3,
+    ORT_PROJECTION_JAVA = 4,
+    ORT_PROJECTION_WINML = 5,
+    ORT_PROJECTION_NODEJS = 6,
+  } OrtLanguageProjection;
+
+  struct OrtKernelInfo;
+  typedef struct OrtKernelInfo OrtKernelInfo;
+  struct OrtKernelContext;
+  typedef struct OrtKernelContext OrtKernelContext;
+  struct OrtCustomOp;
+  typedef struct OrtCustomOp OrtCustomOp;
+
+  typedef enum OrtAllocatorType
+  {
+    OrtInvalidAllocator = -1,
+    OrtDeviceAllocator = 0,
+    OrtArenaAllocator = 1
+  } OrtAllocatorType;
+
+  /** \brief Memory types for allocated memory, execution provider specific types should be extended in each provider.
+   */
+  // Whenever this struct is updated, please also update the MakeKey function in onnxruntime / core / framework / execution_provider.cc
+  typedef enum OrtMemType
+  {
+    OrtMemTypeCPUInput = -2,             ///< Any CPU memory used by non-CPU execution provider
+    OrtMemTypeCPUOutput = -1,            ///< CPU accessible memory outputted by non-CPU execution provider, i.e. CUDA_PINNED
+    OrtMemTypeCPU = OrtMemTypeCPUOutput, ///< Temporary CPU accessible memory allocated by non-CPU execution provider, i.e. CUDA_PINNED
+    OrtMemTypeDefault = 0,               ///< The default allocator for execution provider
+  } OrtMemType;
+
+  /** \brief This mimics OrtDevice type constants so they can be returned in the API
+   */
+  typedef enum OrtMemoryInfoDeviceType
+  {
+    OrtMemoryInfoDeviceType_CPU = 0,
+    OrtMemoryInfoDeviceType_GPU = 1,
+    OrtMemoryInfoDeviceType_FPGA = 2
+  } OrtMemoryInfoDeviceType;
+
+  /** \brief Algorithm to use for cuDNN Convolution Op
+   */
+  typedef enum OrtCudnnConvAlgoSearch
+  {
+    OrtCudnnConvAlgoSearchExhaustive, // expensive exhaustive benchmarking using cudnnFindConvolutionForwardAlgorithmEx
+    OrtCudnnConvAlgoSearchHeuristic,  // lightweight heuristic based search using cudnnGetConvolutionForwardAlgorithm_v7
+    OrtCudnnConvAlgoSearchDefault,    // default algorithm using CUDNN_CONVOLUTION_FWD_ALGO_IMPLICIT_PRECOMP_GEMM
+  } OrtCudnnConvAlgoSearch;
+
+  /** \brief CUDA Provider Options
+   *
+   * \see OrtApi::SessionOptionsAppendExecutionProvider_CUDA
+   */
+  typedef struct OrtCUDAProviderOptions
+  {
+#ifdef __cplusplus
+    OrtCUDAProviderOptions()
+        : device_id{},
+          cudnn_conv_algo_search{OrtCudnnConvAlgoSearchExhaustive},
+          gpu_mem_limit{SIZE_MAX},
+          arena_extend_strategy{},
+          do_copy_in_default_stream{1},
+          has_user_compute_stream{},
+          user_compute_stream{},
+          default_memory_arena_cfg{},
+          tunable_op_enable{false},
+          tunable_op_tuning_enable{false},
+          tunable_op_max_tuning_duration_ms{} {}
+#endif
+
+    /** \brief CUDA device Id
+     *   Defaults to 0.
+     */
+    int device_id;
+
+    /** \brief CUDA Convolution algorithm search configuration.
+     *   See enum OrtCudnnConvAlgoSearch for more details.
+     *   Defaults to OrtCudnnConvAlgoSearchExhaustive.
+     */
+    OrtCudnnConvAlgoSearch cudnn_conv_algo_search;
+
+    /** \brief CUDA memory limit (To use all possible memory pass in maximum size_t)
+     *   Defaults to SIZE_MAX.
+     *   \note If a ::OrtArenaCfg has been applied, it will override this field
+     */
+    size_t gpu_mem_limit;
+
+    /** \brief Strategy used to grow the memory arena
+     *   0 = kNextPowerOfTwo<br>
+     *   1 = kSameAsRequested<br>
+     *   Defaults to 0.
+     *   \note If a ::OrtArenaCfg has been applied, it will override this field
+     */
+    int arena_extend_strategy;
+
+    /** \brief Flag indicating if copying needs to take place on the same stream as the compute stream in the CUDA EP
+     *   0 = Use separate streams for copying and compute.
+     *   1 = Use the same stream for copying and compute.
+     *   Defaults to 1.
+     *   WARNING: Setting this to 0 may result in data races for some models.
+     *   Please see issue #4829 for more details.
+     */
+    int do_copy_in_default_stream;
+
+    /** \brief Flag indicating if there is a user provided compute stream
+     *   Defaults to 0.
+     */
+    int has_user_compute_stream;
+
+    /** \brief User provided compute stream.
+     *   If provided, please set `has_user_compute_stream` to 1.
+     */
+    void *user_compute_stream;
+
+    /** \brief CUDA memory arena configuration parameters
+     */
+    OrtArenaCfg *default_memory_arena_cfg;
+
+    /** \brief Enable TunableOp for using.
+     *   Set it to 1/0 to enable/disable TunableOp. Otherwise, it is disabled by default.
+     *   This option can be overridden by environment variable ORT_CUDA_TUNABLE_OP_ENABLE.
+     */
+    int tunable_op_enable;
+
+    /** \brief Enable TunableOp for tuning.
+     *   Set it to 1/0 to enable/disable TunableOp tuning. Otherwise, it is disabled by default.
+     *   This option can be overridden by environment variable ORT_CUDA_TUNABLE_OP_TUNING_ENABLE.
+     */
+    int tunable_op_tuning_enable;
+
+    /** \brief Max tuning duration time limit for each instance of TunableOp.
+     *   Defaults to 0 to disable the limit.
+     */
+    int tunable_op_max_tuning_duration_ms;
+
+  } OrtCUDAProviderOptions;
+
+  /** \brief ROCM Provider Options
+   *
+   * \see OrtApi::SessionOptionsAppendExecutionProvider_ROCM
+   */
+  typedef struct OrtROCMProviderOptions
+  {
+#ifdef __cplusplus
+    OrtROCMProviderOptions()
+        : device_id{},
+          miopen_conv_exhaustive_search{0},
+          gpu_mem_limit{SIZE_MAX},
+          arena_extend_strategy{},
+          do_copy_in_default_stream{1},
+          has_user_compute_stream{},
+          user_compute_stream{},
+          default_memory_arena_cfg{},
+          enable_hip_graph{false},
+          tunable_op_enable{false},
+          tunable_op_tuning_enable{false},
+          tunable_op_max_tuning_duration_ms{} {}
+#endif
+
+    /** \brief ROCM device Id
+     *   Defaults to 0.
+     */
+    int device_id;
+
+    /** \brief ROCM MIOpen Convolution algorithm exaustive search option.
+     *   Defaults to 0 (false).
+     */
+    int miopen_conv_exhaustive_search;
+
+    /** \brief ROCM memory limit (To use all possible memory pass in maximum size_t)
+     *   Defaults to SIZE_MAX.
+     *   \note If a ::OrtArenaCfg has been applied, it will override this field
+     */
+    size_t gpu_mem_limit;
+
+    /** \brief Strategy used to grow the memory arena
+     *   0 = kNextPowerOfTwo<br>
+     *   1 = kSameAsRequested<br>
+     *   Defaults to 0.
+     *   \note If a ::OrtArenaCfg has been applied, it will override this field
+     */
+    int arena_extend_strategy;
+
+    /** \brief Flag indicating if copying needs to take place on the same stream as the compute stream in the ROCM EP
+     *   0 = Use separate streams for copying and compute.
+     *   1 = Use the same stream for copying and compute.
+     *   Defaults to 1.
+     *   WARNING: Setting this to 0 may result in data races for some models.
+     *   Please see issue #4829 for more details.
+     */
+    int do_copy_in_default_stream;
+
+    /** \brief Flag indicating if there is a user provided compute stream
+     *   Defaults to 0.
+     */
+    int has_user_compute_stream;
+
+    /** \brief User provided compute stream.
+     *   If provided, please set `has_user_compute_stream` to 1.
+     */
+    void *user_compute_stream;
+
+    /** \brief ROCM memory arena configuration parameters
+     */
+    OrtArenaCfg *default_memory_arena_cfg;
+
+    int enable_hip_graph;
+
+    /** \brief Enable TunableOp for using.
+     *   Set it to 1/0 to enable/disable TunableOp. Otherwise, it is disabled by default.
+     *   This option can be overridden by environment variable ORT_ROCM_TUNABLE_OP_ENABLE.
+     */
+    int tunable_op_enable;
+
+    /** \brief Enable TunableOp for tuning.
+     *   Set it to 1/0 to enable/disable TunableOp tuning. Otherwise, it is disabled by default.
+     *   This option can be overridden by environment variable ORT_ROCM_TUNABLE_OP_TUNING_ENABLE.
+     */
+    int tunable_op_tuning_enable;
+
+    /** \brief Max tuning duration time limit for each instance of TunableOp.
+     *   Defaults to 0 to disable the limit.
+     */
+    int tunable_op_max_tuning_duration_ms;
+
+  } OrtROCMProviderOptions;
+
+  /** \brief TensorRT Provider Options
+   *
+   * \see OrtApi::SessionOptionsAppendExecutionProvider_TensorRT
+   */
+  typedef struct OrtTensorRTProviderOptions
+  {
+    int device_id;                               ///< CUDA device id (0 = default device)
+    int has_user_compute_stream;                 // indicator of user specified CUDA compute stream.
+    void *user_compute_stream;                   // user specified CUDA compute stream.
+    int trt_max_partition_iterations;            // maximum iterations for TensorRT parser to get capability
+    int trt_min_subgraph_size;                   // minimum size of TensorRT subgraphs
+    size_t trt_max_workspace_size;               // maximum workspace size for TensorRT.
+    int trt_fp16_enable;                         // enable TensorRT FP16 precision. Default 0 = false, nonzero = true
+    int trt_int8_enable;                         // enable TensorRT INT8 precision. Default 0 = false, nonzero = true
+    const char *trt_int8_calibration_table_name; // TensorRT INT8 calibration table name.
+    int trt_int8_use_native_calibration_table;   // use native TensorRT generated calibration table. Default 0 = false, nonzero = true
+    int trt_dla_enable;                          // enable DLA. Default 0 = false, nonzero = true
+    int trt_dla_core;                            // DLA core number. Default 0
+    int trt_dump_subgraphs;                      // dump TRT subgraph. Default 0 = false, nonzero = true
+    int trt_engine_cache_enable;                 // enable engine caching. Default 0 = false, nonzero = true
+    const char *trt_engine_cache_path;           // specify engine cache path
+    int trt_engine_decryption_enable;            // enable engine decryption. Default 0 = false, nonzero = true
+    const char *trt_engine_decryption_lib_path;  // specify engine decryption library path
+    int trt_force_sequential_engine_build;       // force building TensorRT engine sequentially. Default 0 = false, nonzero = true
+    // This is the legacy struct and don't add new fields here.
+    // For new field that can be represented by string, please add it in include/onnxruntime/core/providers/tensorrt/tensorrt_provider_options.h
+    // For non-string field, need to create a new separate api to handle it.
+  } OrtTensorRTProviderOptions;
+
+  /** \brief MIGraphX Provider Options
+   *
+   * \see OrtApi::SessionOptionsAppendExecutionProvider_MIGraphX
+   */
+  typedef struct OrtMIGraphXProviderOptions
+  {
+    int device_id;                                    // hip device id.
+    int migraphx_fp16_enable;                         // MIGraphX FP16 precision. Default 0 = false, nonzero = true
+    int migraphx_int8_enable;                         // MIGraphX INT8 precision. Default 0 = false, nonzero = true
+    int migraphx_use_native_calibration_table;        // MIGraphx INT8 cal table. Default 0 = false, noznero = true
+    const char *migraphx_int8_calibration_table_name; // MIGraphx INT8 calibration table name
+    int migraphx_save_compiled_model;                 // migraphx save compiled model. Default 0 = false, noznero = true
+    const char *migraphx_save_model_path;             // migraphx model path name
+    int migraphx_load_compiled_model;                 // migraphx int8 cal table. Default 0 = false, noznero = true
+    const char *migraphx_load_model_path;             // migraphx model path name
+    bool migraphx_exhaustive_tune;                    // migraphx tuned compile  Default = false
+  } OrtMIGraphXProviderOptions;
+
+  /** \brief OpenVINO Provider Options
+   *
+   * \see OrtApi::SessionOptionsAppendExecutionProvider_OpenVINO
+   */
+  typedef struct OrtOpenVINOProviderOptions
+  {
+#ifdef __cplusplus
+    OrtOpenVINOProviderOptions() : device_type{},
+                                   enable_npu_fast_compile{},
+                                   device_id{},
+                                   num_of_threads{},
+                                   cache_dir{},
+                                   context{},
+                                   enable_opencl_throttling{},
+                                   enable_dynamic_shapes{} {}
+#endif
+    /** \brief Device type string
+     *
+     * Valid settings are one of: "CPU_FP32", "CPU_FP16", "GPU_FP32", "GPU_FP16"
+     */
+    const char *device_type;
+    unsigned char enable_npu_fast_compile;
+    const char *device_id;
+    size_t num_of_threads; ///< 0 = Use default number of threads
+    const char *cache_dir; // path is set to empty by default
+    void *context;
+    unsigned char enable_opencl_throttling; ///< 0 = disabled, nonzero = enabled
+    unsigned char enable_dynamic_shapes;    ///< 0 = disabled, nonzero = enabled
+  } OrtOpenVINOProviderOptions;
+
+  struct OrtApi;
+  typedef struct OrtApi OrtApi;
+
+  struct OrtTrainingApi;
+  typedef struct OrtTrainingApi OrtTrainingApi;
+
+  /** \brief The helper interface to get the right version of OrtApi
+   *
+   * Get a pointer to this structure through ::OrtGetApiBase
+   */
+  struct OrtApiBase
+  {
+    /** \brief Get a pointer to the requested version of the ::OrtApi
+     *
+     * \param[in] version Must be ::ORT_API_VERSION
+     * \return The ::OrtApi for the version requested, nullptr will be returned if this version is unsupported, for example when using a runtime
+     *   older than the version created with this header file.
+     *
+     * One can call GetVersionString() to get the version of the Onnxruntime library for logging
+     * and error reporting purposes.
+     */
+    const OrtApi *(ORT_API_CALL *GetApi)(uint32_t version)NO_EXCEPTION;
+
+    /** \brief Returns a null terminated string of the version of the Onnxruntime library (eg: "1.8.1")
+     *
+     *  \return UTF-8 encoded version string. Do not deallocate the returned buffer.
+     */
+    const char *(ORT_API_CALL *GetVersionString)(void)NO_EXCEPTION;
+  };
+
+  typedef struct OrtApiBase OrtApiBase;
+
+  /** \brief The Onnxruntime library's entry point to access the C API
+   *
+   * Call this to get the a pointer to an ::OrtApiBase
+   */
+  ORT_EXPORT const OrtApiBase *ORT_API_CALL OrtGetApiBase(void) NO_EXCEPTION;
+
+  /** \brief Thread work loop function
+   *
+   * Onnxruntime will provide the working loop on custom thread creation
+   * Argument is an onnxruntime built-in type which will be provided when thread pool calls OrtCustomCreateThreadFn
+   */
+  typedef void (*OrtThreadWorkerFn)(void *ort_worker_fn_param);
+
+  typedef const struct OrtCustomHandleType
+  {
+    char __place_holder;
+  } *OrtCustomThreadHandle;
+
+  /** \brief Ort custom thread creation function
+   *
+   * The function should return a thread handle to be used in onnxruntime thread pools
+   * Onnxruntime will throw exception on return value of nullptr or 0, indicating that the function failed to create a thread
+   */
+  typedef OrtCustomThreadHandle (*OrtCustomCreateThreadFn)(void *ort_custom_thread_creation_options, OrtThreadWorkerFn ort_thread_worker_fn, void *ort_worker_fn_param);
+
+  /** \brief Custom thread join function
+   *
+   * Onnxruntime thread pool destructor will call the function to join a custom thread.
+   * Argument ort_custom_thread_handle is the value returned by OrtCustomCreateThreadFn
+   */
+  typedef void (*OrtCustomJoinThreadFn)(OrtCustomThreadHandle ort_custom_thread_handle);
+
+  typedef OrtStatus *(ORT_API_CALL *RegisterCustomOpsFn)(OrtSessionOptions *options, const OrtApiBase *api);
+
+  /** \brief Callback function for RunAsync
+   *
+   * \param[in] user_data User specific data that passed back to the callback
+   * \param[out] outputs On succeed, outputs host inference results, on error, the value will be nullptr
+   * \param[out] num_outputs Number of outputs, on error, the value will be zero
+   * \param[out] status On error, status will provide details
+   */
+  typedef void (*RunAsyncCallbackFn)(void *user_data, OrtValue **outputs, size_t num_outputs, OrtStatusPtr status);
+
+  /** \brief The C API
+   *
+   * All C API functions are defined inside this structure as pointers to functions.
+   * Call OrtApiBase::GetApi to get a pointer to it
+   *
+   * \nosubgrouping
+   */
+  struct OrtApi
+  {
+    /// \name OrtStatus
+    /// @{
+
+    /**
+     * \brief Create an OrtStatus from a null terminated string
+     *
+     * \param[in] code
+     * \param[in] msg A null-terminated string. Its contents will be copied.
+     * \return A new OrtStatus object, must be destroyed with OrtApi::ReleaseStatus
+     */
+    OrtStatus *(ORT_API_CALL *CreateStatus)(OrtErrorCode code, _In_ const char *msg)NO_EXCEPTION ORT_ALL_ARGS_NONNULL;
+
+    /** \brief Get OrtErrorCode from OrtStatus
+     *
+     * \param[in] status
+     * \return OrtErrorCode that \p status was created with
+     */
+    OrtErrorCode(ORT_API_CALL *GetErrorCode)(_In_ const OrtStatus *status) NO_EXCEPTION ORT_ALL_ARGS_NONNULL;
+
+    /** \brief Get error string from OrtStatus
+     *
+     * \param[in] status
+     * \return The error message inside the `status`. Do not free the returned value.
+     */
+    const char *(ORT_API_CALL *GetErrorMessage)(_In_ const OrtStatus *status)NO_EXCEPTION ORT_ALL_ARGS_NONNULL;
+
+    /// @}
+    /// \name OrtEnv
+    /// @{
+
+    /** \brief Create an OrtEnv
+     *
+     * \note Invoking this function will return the same instance of the environment as that returned by a previous call
+     * to another env creation function; all arguments to this function will be ignored.
+     * \param[in] log_severity_level The log severity level.
+     * \param[in] logid The log identifier.
+     * \param[out] out Returned newly created OrtEnv. Must be freed with OrtApi::ReleaseEnv
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateEnv, OrtLoggingLevel log_severity_level, _In_ const char *logid, _Outptr_ OrtEnv **out);
+
+    /** \brief Create an OrtEnv
+     *
+     * \note Invoking this function will return the same instance of the environment as that returned by a previous call
+     * to another env creation function; all arguments to this function will be ignored. If you want to provide your
+     * own logging function, consider setting it using the SetUserLoggingFunction API instead.
+     * \param[in] logging_function A pointer to a logging function.
+     * \param[in] logger_param A pointer to arbitrary data passed as the ::OrtLoggingFunction `param` parameter to
+     *                         `logging_function`. This parameter is optional.
+     * \param[in] log_severity_level The log severity level.
+     * \param[in] logid The log identifier.
+     * \param[out] out Returned newly created OrtEnv. Must be freed with OrtApi::ReleaseEnv
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateEnvWithCustomLogger, _In_ OrtLoggingFunction logging_function, _In_opt_ void *logger_param,
+                    _In_ OrtLoggingLevel log_severity_level, _In_ const char *logid, _Outptr_ OrtEnv **out);
+
+    /** \brief Enable Telemetry
+     *
+     * \note Telemetry events are on by default since they are lightweight
+     * \param[in] env
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(EnableTelemetryEvents, _In_ const OrtEnv *env);
+    /** \brief Disable Telemetry
+     *
+     * \see OrtApi::EnableTelemetryEvents
+     * \param[in] env
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(DisableTelemetryEvents, _In_ const OrtEnv *env);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief Create an OrtSession from a model file
+     *
+     * \param[in] env
+     * \param[in] model_path
+     * \param[in] options
+     * \param[out] out Returned newly created OrtSession. Must be freed with OrtApi::ReleaseSession
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    // TODO: document the path separator convention? '/' vs '\'
+    // TODO: should specify the access characteristics of model_path. Is this read only during the
+    // execution of CreateSession, or does the OrtSession retain a handle to the file/directory
+    // and continue to access throughout the OrtSession lifetime?
+    //  What sort of access is needed to model_path : read or read/write?
+    ORT_API2_STATUS(CreateSession, _In_ const OrtEnv *env, _In_ const ORTCHAR_T *model_path,
+                    _In_ const OrtSessionOptions *options, _Outptr_ OrtSession **out);
+
+    /** \brief Create an OrtSession from memory
+     *
+     * \param[in] env
+     * \param[in] model_data
+     * \param[in] model_data_length
+     * \param[in] options
+     * \param[out] out Returned newly created OrtSession. Must be freed with OrtApi::ReleaseSession
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSessionFromArray, _In_ const OrtEnv *env, _In_ const void *model_data, size_t model_data_length,
+                    _In_ const OrtSessionOptions *options, _Outptr_ OrtSession **out);
+
+    /** \brief Run the model in an ::OrtSession
+     *
+     * Will not return until the model run has completed. Multiple threads might be used to run the model based on
+     * the options in the ::OrtSession and settings used when creating the ::OrtEnv
+     *
+     * \param[in] session
+     * \param[in] run_options If nullptr, will use a default ::OrtRunOptions
+     * \param[in] input_names Array of null terminated UTF8 encoded strings of the input names
+     * \param[in] inputs Array of ::OrtValue%s of the input values
+     * \param[in] input_len Number of elements in the input_names and inputs arrays
+     * \param[in] output_names Array of null terminated UTF8 encoded strings of the output names
+     * \param[in] output_names_len Number of elements in the output_names and outputs array
+     * \param[out] outputs Array of ::OrtValue%s that the outputs are stored in. This can also be
+     *     an array of nullptr values, in this case ::OrtValue objects will be allocated and pointers
+     *     to them will be set into the `outputs` array.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(Run, _Inout_ OrtSession *session, _In_opt_ const OrtRunOptions *run_options,
+                    _In_reads_(input_len) const char *const *input_names,
+                    _In_reads_(input_len) const OrtValue *const *inputs, size_t input_len,
+                    _In_reads_(output_names_len) const char *const *output_names, size_t output_names_len,
+                    _Inout_updates_all_(output_names_len) OrtValue **outputs);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Create an ::OrtSessionOptions object
+     *
+     * To use additional providers, you must build ORT with the extra providers enabled. Then call one of these
+     * functions to enable them in the session:<br>
+     *   OrtSessionOptionsAppendExecutionProvider_CPU<br>
+     *   OrtSessionOptionsAppendExecutionProvider_CUDA<br>
+     *   OrtSessionOptionsAppendExecutionProvider_(remaining providers...)<br>
+     * The order they are called indicates the preference order as well. In other words call this method
+     * on your most preferred execution provider first followed by the less preferred ones.
+     * If none are called Ort will use its internal CPU execution provider.
+     *
+     * \param[out] options The newly created OrtSessionOptions. Must be freed with OrtApi::ReleaseSessionOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSessionOptions, _Outptr_ OrtSessionOptions **options);
+
+    /** \brief Set filepath to save optimized model after graph level transformations
+     *
+     * \param[in] options
+     * \param[in] optimized_model_filepath
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetOptimizedModelFilePath, _Inout_ OrtSessionOptions *options,
+                    _In_ const ORTCHAR_T *optimized_model_filepath);
+
+    /** \brief Create a copy of an existing ::OrtSessionOptions
+     *
+     * \param[in] in_options OrtSessionOptions to copy
+     * \param[out] out_options Returned newly created ::OrtSessionOptions. Must be freed with OrtApi::ReleaseSessionOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CloneSessionOptions, _In_ const OrtSessionOptions *in_options,
+                    _Outptr_ OrtSessionOptions **out_options);
+
+    /** \brief Set execution mode
+     *
+     * Controls whether you want to execute operators in your graph sequentially or in parallel. Usually when the model
+     *  has many branches, setting this option to ExecutionMode.ORT_PARALLEL will give you better performance.
+     *  See [docs/ONNX_Runtime_Perf_Tuning.md] for more details.
+     *
+     * \param[in] options
+     * \param[in] execution_mode
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetSessionExecutionMode, _Inout_ OrtSessionOptions *options, ExecutionMode execution_mode);
+
+    /** \brief Enable profiling for a session
+     *
+     * \param[in] options
+     * \param[in] profile_file_prefix
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(EnableProfiling, _Inout_ OrtSessionOptions *options, _In_ const ORTCHAR_T *profile_file_prefix);
+
+    /** \brief Disable profiling for a session
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(DisableProfiling, _Inout_ OrtSessionOptions *options);
+
+    /** \brief Enable the memory pattern optimization
+     *
+     * The idea is if the input shapes are the same, we could trace the internal memory allocation
+     * and generate a memory pattern for future request. So next time we could just do one allocation
+     * with a big chunk for all the internal memory allocation.
+     * \note Memory pattern optimization is only available when Sequential Execution mode is enabled (see OrtApi::SetSessionExecutionMode)
+     *
+     * \see OrtApi::DisableMemPattern
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(EnableMemPattern, _Inout_ OrtSessionOptions *options);
+
+    /** \brief Disable the memory pattern optimization
+     *
+     * \see OrtApi::EnableMemPattern
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(DisableMemPattern, _Inout_ OrtSessionOptions *options);
+
+    /** \brief Enable the memory arena on CPU
+     *
+     * Arena may pre-allocate memory for future usage.
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(EnableCpuMemArena, _Inout_ OrtSessionOptions *options);
+
+    /** \brief Disable the memory arena on CPU
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(DisableCpuMemArena, _Inout_ OrtSessionOptions *options);
+
+    /** \brief Set session log id
+     *
+     * \param[in] options
+     * \param[in] logid The log identifier.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetSessionLogId, _Inout_ OrtSessionOptions *options, const char *logid);
+
+    /** \brief Set session log verbosity level
+     *
+     * Applies to session load, initialization, etc
+     *
+     * \param[in] options
+     * \param[in] session_log_verbosity_level \snippet{doc} snippets.dox Log Verbosity Level
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetSessionLogVerbosityLevel, _Inout_ OrtSessionOptions *options, int session_log_verbosity_level);
+
+    /** \brief Set session log severity level
+     *
+     * \param[in] options
+     * \param[in] session_log_severity_level The log severity level (refer to ::OrtLoggingLevel for possible values).
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetSessionLogSeverityLevel, _Inout_ OrtSessionOptions *options, int session_log_severity_level);
+
+    /** \brief Set the optimization level to apply when loading a graph
+     *
+     * Please see https://onnxruntime.ai/docs/performance/model-optimizations/graph-optimizations.html for an in-depth explanation
+     * \param[in,out] options The session options object
+     * \param[in] graph_optimization_level The optimization level
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetSessionGraphOptimizationLevel, _Inout_ OrtSessionOptions *options,
+                    GraphOptimizationLevel graph_optimization_level);
+
+    /** \brief Sets the number of threads used to parallelize the execution within nodes
+     *
+     * When running a single node operation, ex. add, this sets the maximum number of threads to use.
+     *
+     * \note If built with OpenMP, this has no effect on the number of threads used. In this case
+     *       use the OpenMP env variables to configure the number of intra op num threads.
+     *
+     * \param[in] options
+     * \param[in] intra_op_num_threads Number of threads to use<br>
+     *   A value of 0 will use the default number of threads<br>
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetIntraOpNumThreads, _Inout_ OrtSessionOptions *options, int intra_op_num_threads);
+
+    /** \brief Sets the number of threads used to parallelize the execution of the graph
+     *
+     * If nodes can be run in parallel, this sets the maximum number of threads to use to run them in parallel.
+     *
+     * \note If sequential execution is enabled this value is ignored, it acts as if it was set to 1.
+     *
+     * \param[in] options
+     * \param[in] inter_op_num_threads Number of threads to use<br>
+     *   A value of 0 will use the default number of threads<br>
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetInterOpNumThreads, _Inout_ OrtSessionOptions *options, int inter_op_num_threads);
+
+    /// @}
+    /// \name OrtCustomOpDomain
+    /// @{
+
+    /** \brief Create a custom op domain
+     *
+     * \param[in] domain
+     * \param[out] out Newly created domain. Must be freed with OrtApi::ReleaseCustomOpDomain
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateCustomOpDomain, _In_ const char *domain, _Outptr_ OrtCustomOpDomain **out);
+
+    /** \brief Add a custom op to a custom op domain
+     *
+     * \note The OrtCustomOp* pointer must remain valid until the ::OrtCustomOpDomain using it is released
+     *
+     * \param[in] custom_op_domain
+     * \param[in] op
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CustomOpDomain_Add, _Inout_ OrtCustomOpDomain *custom_op_domain, _In_ const OrtCustomOp *op);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Add custom op domain to a session options
+     *
+     * \note The OrtCustomOpDomain* must not be deleted until all sessions using it are released
+     *
+     * \param[in] options
+     * \param[in] custom_op_domain
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddCustomOpDomain, _Inout_ OrtSessionOptions *options, _In_ OrtCustomOpDomain *custom_op_domain);
+
+    /** \deprecated Use OrtApi::RegisterCustomOpsLibrary_V2.
+     *
+     * Registers custom ops from a shared library.
+     *
+     * Loads a shared library (dll on windows, so on linux, etc) named 'library_path' and looks for this entry point:
+     *		OrtStatus* RegisterCustomOps(OrtSessionOptions * options, const OrtApiBase* api);
+     * It then passes in the provided session options to this function along with the api base.
+     * The handle to the loaded library is returned in library_handle. It can be freed by the caller after all sessions using the passed in
+     * session options are destroyed, or if an error occurs and it is non null.
+     *
+     * \param[in] options
+     * \param[in] library_path
+     * \param[out] library_handle OS specific handle to the loaded library (Use FreeLibrary on Windows, dlclose on Linux, etc.. to unload)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RegisterCustomOpsLibrary, _Inout_ OrtSessionOptions *options, _In_ const char *library_path, _Outptr_ void **library_handle);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief Get input count for a session
+     *
+     * This number must also match the number of inputs passed to OrtApi::Run
+     *
+     * \see OrtApi::SessionGetInputTypeInfo, OrtApi::SessionGetInputName, OrtApi::Session
+     *
+     * \param[in] session
+     * \param[out] out Number of inputs
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetInputCount, _In_ const OrtSession *session, _Out_ size_t *out);
+
+    /** \brief Get output count for a session
+     *
+     * This number must also match the number of outputs returned by OrtApi::Run
+     *
+     * \see OrtApi::SessionGetOutputTypeInfo, OrtApi::SessionGetOutputName, OrtApi::Session
+     *
+     * \param[in] session
+     * \param[out] out Number of outputs
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOutputCount, _In_ const OrtSession *session, _Out_ size_t *out);
+
+    /** \brief Get overridable initializer count
+     *
+     * \see OrtApi::SessionGetOverridableInitializerTypeInfo, OrtApi::SessionGetOverridableInitializerName
+     *
+     * \param[in] session
+     * \param[in] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOverridableInitializerCount, _In_ const OrtSession *session, _Out_ size_t *out);
+
+    /** \brief Get input type information
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetInputCount returns (exclusive)
+     * \param[out] type_info Must be freed with OrtApi::ReleaseTypeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetInputTypeInfo, _In_ const OrtSession *session, size_t index, _Outptr_ OrtTypeInfo **type_info);
+
+    /** \brief Get output type information
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetOutputCount returns (exclusive)
+     * \param[out] type_info Must be freed with OrtApi::ReleaseTypeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOutputTypeInfo, _In_ const OrtSession *session, size_t index, _Outptr_ OrtTypeInfo **type_info);
+
+    /** \brief Get overridable initializer type information
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetOverridableInitializerCount returns (exclusive)
+     * \param[out] type_info Must be freed with OrtApi::ReleaseTypeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOverridableInitializerTypeInfo, _In_ const OrtSession *session, size_t index, _Outptr_ OrtTypeInfo **type_info);
+
+    /** \brief Get input name
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetInputCount returns (exclusive)
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated UTF-8 encoded string allocated using `allocator`. Must be freed using `allocator`.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetInputName, _In_ const OrtSession *session, size_t index, _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /** \brief Get output name
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetOutputCount returns (exclusive)
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated UTF-8 encoded string allocated using `allocator`. Must be freed using `allocator`.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOutputName, _In_ const OrtSession *session, size_t index, _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /** \brief Get overridable initializer name
+     *
+     * \param[in] session
+     * \param[in] index Must be between 0 (inclusive) and what OrtApi::SessionGetOverridableInitializerCount returns (exclusive)
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated UTF-8 encoded string allocated using `allocator`. Must be freed using `allocator`.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetOverridableInitializerName, _In_ const OrtSession *session, size_t index,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /// @}
+    /// \name OrtRunOptions
+    /// @{
+
+    /** \brief Create an OrtRunOptions
+     *
+     * \param[out] out Returned newly created ::OrtRunOptions. Must be freed with OrtApi::ReleaseRunOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateRunOptions, _Outptr_ OrtRunOptions **out);
+
+    /** \brief Set per-run log verbosity level
+     *
+     * \see OrtApi::RunOptionsGetRunLogVerbosityLevel
+     *
+     * \param[in] options
+     * \param[in] log_verbosity_level \snippet{doc} snippets.dox Log Verbosity Level
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunOptionsSetRunLogVerbosityLevel, _Inout_ OrtRunOptions *options, int log_verbosity_level);
+
+    /** \brief Set per-run log severity level
+     *
+     * \see OrtApi::RunOptionsGetRunLogSeverityLevel
+     *
+     * \param[in] options
+     * \param[in] log_severity_level The log severity level (refer to ::OrtLoggingLevel for possible values).
+     */
+    ORT_API2_STATUS(RunOptionsSetRunLogSeverityLevel, _Inout_ OrtRunOptions *options, int log_severity_level);
+
+    /** \brief Set per-run tag
+     *
+     * This is used in a per-run log identifier.
+     *
+     * \see OrtApi::RunOptionsGetRunTag
+     *
+     * \param[in] options
+     * \param[in] run_tag The run tag.
+     */
+    ORT_API2_STATUS(RunOptionsSetRunTag, _Inout_ OrtRunOptions *options, _In_ const char *run_tag);
+
+    /** \brief Get per-run log verbosity level
+     *
+     * \see OrtApi::RunOptionsSetRunLogVerbosityLevel
+     *
+     * \param[in] options
+     * \param[out] log_verbosity_level \snippet{doc} snippets.dox Log Verbosity Level
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunOptionsGetRunLogVerbosityLevel, _In_ const OrtRunOptions *options,
+                    _Out_ int *log_verbosity_level);
+
+    /** \brief Get per-run log severity level
+     *
+     * \see OrtApi::RunOptionsSetRunLogSeverityLevel
+     *
+     * \param[in] options
+     * \param[out] log_severity_level The log severity level (refer to ::OrtLoggingLevel for possible values).
+     */
+    ORT_API2_STATUS(RunOptionsGetRunLogSeverityLevel, _In_ const OrtRunOptions *options, _Out_ int *log_severity_level);
+
+    /** \brief Get per-run tag
+     *
+     * This is used in a per-run log identifier.
+     *
+     * \see OrtApi::RunOptionsSetRunTag
+     *
+     * \param[in] options
+     * \param[out] run_tag The run tag.
+     *                     Do not free this value, it is owned by `options`. It will be invalidated if the run tag
+     *                     changes (i.e., with OrtApi::RunOptionsSetRunTag) or `options` is freed.
+     */
+    ORT_API2_STATUS(RunOptionsGetRunTag, _In_ const OrtRunOptions *options, _Out_ const char **run_tag);
+
+    /** \brief Set terminate flag
+     *
+     * If a currently executing session needs to be force terminated, this can be called from another thread to force it to fail with an error.
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunOptionsSetTerminate, _Inout_ OrtRunOptions *options);
+
+    /** \brief Clears the terminate flag
+     *
+     * Used so the OrtRunOptions instance can be used in a new OrtApi::Run call without it instantly terminating
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunOptionsUnsetTerminate, _Inout_ OrtRunOptions *options);
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /** \brief Create a tensor
+     *
+     * Create a tensor using a supplied ::OrtAllocator
+     *
+     * \param[in] allocator
+     * \param[in] shape Pointer to the tensor shape dimensions.
+     * \param[in] shape_len The number of tensor shape dimensions.
+     * \param[in] type
+     * \param[out] out Returns newly created ::OrtValue. Must be freed with OrtApi::ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateTensorAsOrtValue, _Inout_ OrtAllocator *allocator, _In_ const int64_t *shape, size_t shape_len,
+                    ONNXTensorElementDataType type, _Outptr_ OrtValue **out);
+
+    /** \brief Create a tensor backed by a user supplied buffer
+     *
+     * Create a tensor with user's buffer. You can fill the buffer either before calling this function or after.
+     * p_data is owned by caller. ReleaseValue won't release p_data.
+     *
+     * \param[in] info Memory description of where the p_data buffer resides (CPU vs GPU etc).
+     * \param[in] p_data Pointer to the data buffer.
+     * \param[in] p_data_len The number of bytes in the data buffer.
+     * \param[in] shape Pointer to the tensor shape dimensions.
+     * \param[in] shape_len The number of tensor shape dimensions.
+     * \param[in] type The data type.
+     * \param[out] out Returns newly created ::OrtValue. Must be freed with OrtApi::ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateTensorWithDataAsOrtValue, _In_ const OrtMemoryInfo *info, _Inout_ void *p_data,
+                    size_t p_data_len, _In_ const int64_t *shape, size_t shape_len, ONNXTensorElementDataType type,
+                    _Outptr_ OrtValue **out);
+
+    /** \brief Return if an ::OrtValue is a tensor type
+     *
+     * \param[in] value A tensor type (string tensors are not supported)
+     * \param[out] out Set to 1 iff ::OrtValue is a tensor, 0 otherwise
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(IsTensor, _In_ const OrtValue *value, _Out_ int *out);
+
+    /** \brief Get a pointer to the raw data inside a tensor
+     *
+     * Used to read/write/modify the internal tensor data directly.
+     * \note The returned pointer is valid until the \p value is destroyed.
+     *
+     * \param[in] value A tensor type (string tensors are not supported)
+     * \param[out] out Filled in with a pointer to the internal storage
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorMutableData, _In_ OrtValue *value, _Outptr_ void **out);
+
+    /** \brief Set all strings at once in a string tensor
+     *
+     * \param[in,out] value A tensor of type ONNX_TENSOR_ELEMENT_DATA_TYPE_STRING
+     * \param[in] s An array of strings. Each string in this array must be null terminated.
+     * \param[in] s_len Count of strings in s (Must match the size of \p value's tensor shape)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(FillStringTensor, _Inout_ OrtValue *value, _In_ const char *const *s, size_t s_len);
+
+    /** \brief Get total byte length for all strings in a string tensor
+     *
+     * Typically used with OrtApi::GetStringTensorContent
+     *
+     * \param[in] value A tensor of type ONNX_TENSOR_ELEMENT_DATA_TYPE_STRING
+     * \param[out] len Total byte length of all strings (does not include trailing nulls)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetStringTensorDataLength, _In_ const OrtValue *value, _Out_ size_t *len);
+
+    /** \brief Get all strings from a string tensor
+     *
+     * An example of the results:<br>
+     * Given \p value is a string tensor with the strings { "This" "is" "a" "test" }<br>
+     * \p s must have a size of 11 bytes<br>
+     * \p offsets must have 4 elements<br>
+     * After the call, these values will be filled in:<br>
+     * \p s will contain "Thisisatest"<br>
+     * \p offsets will contain { 0, 4, 6, 7 }<br>
+     * The length of the last string is just s_len - offsets[last]
+     *
+     * \param[in] value A tensor of type ONNX_TENSOR_ELEMENT_DATA_TYPE_STRING
+     * \param[in] s Buffer to sequentially write all tensor strings to. Each string is NOT null-terminated.
+     * \param[in] s_len Number of bytes of buffer pointed to by \p s (Get it from OrtApi::GetStringTensorDataLength)
+     * \param[out] offsets Array of start offsets into the strings written to \p s
+     * \param[in] offsets_len Number of elements in offsets
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetStringTensorContent, _In_ const OrtValue *value, _Out_writes_bytes_all_(s_len) void *s,
+                    size_t s_len, _Out_writes_all_(offsets_len) size_t *offsets, size_t offsets_len);
+
+    /// @}
+    /// \name OrtTypeInfo
+    /// @{
+
+    /** \brief Get ::OrtTensorTypeAndShapeInfo from an ::OrtTypeInfo
+     *
+     * \param[in] type_info
+     * \param[out] out Do not free this value, it will be valid until type_info is freed.
+     *             If type_info does not represent tensor, this value will be set to nullptr.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CastTypeInfoToTensorInfo, _In_ const OrtTypeInfo *type_info,
+                    _Outptr_result_maybenull_ const OrtTensorTypeAndShapeInfo **out);
+
+    /** \brief Get ::ONNXType from ::OrtTypeInfo
+     *
+     * \param[in] type_info
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetOnnxTypeFromTypeInfo, _In_ const OrtTypeInfo *type_info, _Out_ enum ONNXType *out);
+
+    /// @}
+    /// \name OrtTensorTypeAndShapeInfo
+    /// @{
+
+    /** \brief Create an ::OrtTensorTypeAndShapeInfo object
+     *
+     * \param[out] out Returns newly created ::OrtTensorTypeAndShapeInfo. Must be freed with OrtApi::ReleaseTensorTypeAndShapeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateTensorTypeAndShapeInfo, _Outptr_ OrtTensorTypeAndShapeInfo **out);
+
+    /** \brief Set element type in ::OrtTensorTypeAndShapeInfo
+     *
+     * \param[in] info
+     * \param[in] type
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetTensorElementType, _Inout_ OrtTensorTypeAndShapeInfo *info, enum ONNXTensorElementDataType type);
+
+    /** \brief Set shape information in ::OrtTensorTypeAndShapeInfo
+     *
+     * \param[in] info
+     * \param[in] dim_values Array with `dim_count` elements. Can contain negative values.
+     * \param[in] dim_count Number of elements in `dim_values`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetDimensions, OrtTensorTypeAndShapeInfo *info, _In_ const int64_t *dim_values, size_t dim_count);
+
+    /** \brief Get element type in ::OrtTensorTypeAndShapeInfo
+     *
+     * \see OrtApi::SetTensorElementType
+     *
+     * \param[in] info
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorElementType, _In_ const OrtTensorTypeAndShapeInfo *info,
+                    _Out_ enum ONNXTensorElementDataType *out);
+
+    /** \brief Get dimension count in ::OrtTensorTypeAndShapeInfo
+     *
+     * \see OrtApi::GetDimensions
+     *
+     * \param[in] info
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetDimensionsCount, _In_ const OrtTensorTypeAndShapeInfo *info, _Out_ size_t *out);
+
+    /** \brief Get dimensions in ::OrtTensorTypeAndShapeInfo
+     *
+     * \param[in] info
+     * \param[out] dim_values Array with `dim_values_length` elements. On return, filled with the dimensions stored in the ::OrtTensorTypeAndShapeInfo
+     * \param[in] dim_values_length Number of elements in `dim_values`. Use OrtApi::GetDimensionsCount to get this value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetDimensions, _In_ const OrtTensorTypeAndShapeInfo *info, _Out_ int64_t *dim_values,
+                    size_t dim_values_length);
+
+    /** \brief Get symbolic dimension names in ::OrtTensorTypeAndShapeInfo
+     *
+     * \param[in] info
+     * \param[in] dim_params Array with `dim_params_length` elements. On return filled with pointers to null terminated strings of the dimension names
+     * \param[in] dim_params_length Number of elements in `dim_params`. Use OrtApi::GetDimensionsCount to get this value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSymbolicDimensions, _In_ const OrtTensorTypeAndShapeInfo *info,
+                    _Out_writes_all_(dim_params_length) const char *dim_params[], size_t dim_params_length);
+
+    /** \brief Get total number of elements in a tensor shape from an ::OrtTensorTypeAndShapeInfo
+     *
+     * Return the number of elements specified by the tensor shape (all dimensions multiplied by each other).
+     * For 0 dimensions, 1 is returned. If any dimension is less than 0, the result is always -1.
+     *
+     * Examples:<br>
+     * [] = 1<br>
+     * [1,3,4] = 12<br>
+     * [2,0,4] = 0<br>
+     * [-1,3,4] = -1<br>
+     *
+     * \param[in] info
+     * \param[out] out Number of elements
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorShapeElementCount, _In_ const OrtTensorTypeAndShapeInfo *info, _Out_ size_t *out);
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /** \brief Get type and shape information from a tensor ::OrtValue
+     *
+     * \param[in] value Must be a tensor (not a map/sequence/etc) or will return failure
+     * \param[out] out Newly created ::OrtTensorTypeAndShapeInfo. Must be freed with OrtApi::ReleaseTensorTypeAndShapeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorTypeAndShape, _In_ const OrtValue *value, _Outptr_ OrtTensorTypeAndShapeInfo **out);
+
+    /** \brief Get type information of an OrtValue
+     *
+     * \param[in] value
+     * \param[out] out Newly created ::OrtTypeInfo. Must be freed with OrtApi::ReleaseTypeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTypeInfo, _In_ const OrtValue *value, _Outptr_result_maybenull_ OrtTypeInfo **out);
+
+    /** \brief Get ONNXType of an ::OrtValue
+     *
+     * \param[in] value
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetValueType, _In_ const OrtValue *value, _Out_ enum ONNXType *out);
+
+    /// @}
+    /// \name OrtMemoryInfo
+    /// @{
+
+    /** \brief Create an ::OrtMemoryInfo
+     *
+     * \param[in] name
+     * \param[in] type
+     * \param[in] id
+     * \param[in] mem_type
+     * \param[out] out Newly created ::OrtMemoryInfo. Must be freed with OrtAPi::ReleaseMemoryInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateMemoryInfo, _In_ const char *name, enum OrtAllocatorType type, int id,
+                    enum OrtMemType mem_type, _Outptr_ OrtMemoryInfo **out);
+
+    /** \brief Create an ::OrtMemoryInfo for CPU memory
+     *
+     * Special case version of OrtApi::CreateMemoryInfo for CPU based memory. Same as using OrtApi::CreateMemoryInfo with name = "Cpu" and id = 0.
+     *
+     * \param[in] type
+     * \param[in] mem_type
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateCpuMemoryInfo, enum OrtAllocatorType type, enum OrtMemType mem_type,
+                    _Outptr_ OrtMemoryInfo **out);
+
+    /** \brief Compare ::OrtMemoryInfo objects for equality
+     *
+     * Compares all settings of each ::OrtMemoryInfo for equality
+     *
+     * \param[in] info1
+     * \param[in] info2
+     * \param[out] out Set to 0 if equal, -1 if not equal
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CompareMemoryInfo, _In_ const OrtMemoryInfo *info1, _In_ const OrtMemoryInfo *info2, _Out_ int *out);
+
+    /** \brief Get name from ::OrtMemoryInfo
+     *
+     * \param[in] ptr
+     * \param[out] out Writes null terminated string to this pointer. Do NOT free the returned pointer. It is valid for the lifetime of the ::OrtMemoryInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(MemoryInfoGetName, _In_ const OrtMemoryInfo *ptr, _Out_ const char **out);
+
+    /** \brief Get the id from ::OrtMemoryInfo
+     */
+    ORT_API2_STATUS(MemoryInfoGetId, _In_ const OrtMemoryInfo *ptr, _Out_ int *out);
+
+    /** \brief Get the ::OrtMemType from ::OrtMemoryInfo
+     */
+    ORT_API2_STATUS(MemoryInfoGetMemType, _In_ const OrtMemoryInfo *ptr, _Out_ OrtMemType *out);
+
+    /** \brief Get the ::OrtAllocatorType from ::OrtMemoryInfo
+     */
+    ORT_API2_STATUS(MemoryInfoGetType, _In_ const OrtMemoryInfo *ptr, _Out_ OrtAllocatorType *out);
+
+    /// @}
+    /// \name OrtAllocator
+    /// @{
+
+    /// \brief Calls OrtAllocator::Alloc function
+    ORT_API2_STATUS(AllocatorAlloc, _Inout_ OrtAllocator *ort_allocator, size_t size, _Outptr_ void **out);
+    /// \brief Calls OrtAllocator::Free function
+    ORT_API2_STATUS(AllocatorFree, _Inout_ OrtAllocator *ort_allocator, void *p);
+    /// \brief Calls OrtAllocator::Info function
+    ORT_API2_STATUS(AllocatorGetInfo, _In_ const OrtAllocator *ort_allocator, _Outptr_ const struct OrtMemoryInfo **out);
+
+    /** \brief Get the default allocator
+     *
+     * The default allocator is a CPU based, non-arena. Always returns the same pointer to the same default allocator.
+     *
+     * \param[out] out Returned value should NOT be freed
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetAllocatorWithDefaultOptions, _Outptr_ OrtAllocator **out);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Override session symbolic dimensions
+     *
+     * Override symbolic dimensions (by specific denotation strings) with actual values if known at session initialization time to enable
+     * optimizations that can take advantage of fixed values (such as memory planning, etc)
+     *
+     * \param[in] options
+     * \param[in] dim_denotation
+     * \param[in] dim_value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddFreeDimensionOverride, _Inout_ OrtSessionOptions *options, _In_ const char *dim_denotation,
+                    _In_ int64_t dim_value);
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /* Internal information (not seen in Doxygen)
+     *
+     * APIs to support non-tensor types - map and sequence.
+     * Currently only the following types are supported
+     * Note: the following types should be kept in sync with data_types.h
+     * Map types
+     * =========
+     * std::map<std::string, std::string>
+     * std::map<std::string, int64_t>
+     * std::map<std::string, float>
+     * std::map<std::string, double>
+     * std::map<int64_t, std::string>
+     * std::map<int64_t, int64_t>
+     * std::map<int64_t, float>
+     * std::map<int64_t, double>
+     *
+     * Sequence types
+     * ==============
+     * std::vector<std::string>
+     * std::vector<int64_t>
+     * std::vector<float>
+     * std::vector<double>
+     * std::vector<std::map<std::string, float>>
+     * std::vector<std::map<int64_t, float>
+     */
+
+    /** \brief Get non tensor data from an ::OrtValue
+     *
+     * If `value` is of type ONNX_TYPE_MAP, you need to retrieve the keys and values
+     * separately. Use index=0 to retrieve keys and index=1 to retrieve values.
+     * If `value` is of type ONNX_TYPE_SEQUENCE, use index to retrieve the index'th element
+     * of the sequence.
+     *
+     * \param[in] value
+     * \param[in] index See above for usage based on `value` type
+     * \param[in] allocator Allocator used to allocate ::OrtValue
+     * \param[out] out Created ::OrtValue that holds the element requested. Must be freed with OrtApi::ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetValue, _In_ const OrtValue *value, int index, _Inout_ OrtAllocator *allocator,
+                    _Outptr_ OrtValue **out);
+
+    /** \brief Get non tensor value count from an ::OrtValue
+     *
+     * If `value` is of type ONNX_TYPE_MAP 2 will always be returned. For ONNX_TYPE_SEQUENCE
+     * the number of elements in the sequence will be returned
+     *
+     * \param[in] value
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetValueCount, _In_ const OrtValue *value, _Out_ size_t *out);
+
+    /** \brief Create a map or sequence ::OrtValue
+     *
+     * To construct a map (ONNX_TYPE_MAP), use num_values = 2 and `in` should be an array of 2 ::OrtValue%s
+     * representing keys and values.<br>
+     *
+     * To construct a sequence (ONNX_TYPE_SEQUENCE), use num_values = N where N is the number of the elements in the
+     * sequence. 'in' should be an array of N ::OrtValue%s.
+     *
+     * \param[in] in See above for details
+     * \param[in] num_values
+     * \param[in] value_type Must be either ONNX_TYPE_MAP or ONNX_TYPE_SEQUENCE
+     * \param[out] out Newly created ::OrtValue. Must be freed with OrtApi::ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateValue, _In_reads_(num_values) const OrtValue *const *in, size_t num_values,
+                    enum ONNXType value_type, _Outptr_ OrtValue **out);
+
+    /** \brief Create an opaque (custom user defined type) ::OrtValue
+     *
+     * Constructs an ::OrtValue that contains a value of non-standard type created for
+     * experiments or while awaiting standardization. ::OrtValue in this case would contain
+     * an internal representation of the Opaque type. Opaque types are distinguished from
+     * each other by two strings 1) domain and 2) type name. The combination of the two
+     * must be unique, so the type representation is properly identified internally. The combination
+     * must be properly registered from within ORT at both compile/run time or by another API.
+     *
+     * To construct the ::OrtValue pass domain and type names, also a pointer to a data container
+     * the type of which must be known to both ORT and the client program. That data container may or may
+     * not match the internal representation of the Opaque type. The sizeof(data_container) is passed for
+     * verification purposes.
+     *
+     * \param[in] domain_name Null terminated string of the domain name
+     * \param[in] type_name Null terminated string of the type name
+     * \param[in] data_container User pointer Data to populate ::OrtValue
+     * \param[in] data_container_size Size in bytes of what `data_container` points to
+     * \param[out] out Newly created ::OrtValue. Must be freed with OrtApi::ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateOpaqueValue, _In_z_ const char *domain_name, _In_z_ const char *type_name,
+                    _In_ const void *data_container, size_t data_container_size, _Outptr_ OrtValue **out);
+
+    /** \brief Get internal data from an opaque (custom user defined type) ::OrtValue
+     *
+     * Copies internal data from an opaque value into a user provided buffer
+     *
+     * \see OrtApi::CreateOpaqueValue
+     *
+     * \param[in] domain_name Null terminated string of the domain name
+     * \param[in] type_name Null terminated string of the type name
+     * \param[in] in The opaque ::OrtValue
+     * \param[out] data_container Buffer to copy data into
+     * \param[out] data_container_size Size in bytes of the buffer pointed to by data_container. Must match the size of the internal buffer.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetOpaqueValue, _In_ const char *domain_name, _In_ const char *type_name, _In_ const OrtValue *in,
+                    _Out_ void *data_container, size_t data_container_size);
+
+    /// @}
+    /// \name OrtKernelInfo
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Get a float stored as an attribute in the graph node
+     *
+     * \param[in] info ::OrtKernelInfo instance
+     * \param[in] name Null terminated string of the name of the attribute
+     * \param[out] out Pointer to memory where the attribute will be stored
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttribute_float, _In_ const OrtKernelInfo *info, _In_ const char *name,
+                    _Out_ float *out);
+
+    /** \brief Fetch a 64-bit int stored as an attribute in the graph node
+     *
+     * \param[in] info ::OrtKernelInfo instance
+     * \param[in] name Null terminated string of the name of the attribute
+     * \param[out] out Pointer to memory where the attribute will be stored
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttribute_int64, _In_ const OrtKernelInfo *info, _In_ const char *name,
+                    _Out_ int64_t *out);
+
+    /** \brief Fetch a string stored as an attribute in the graph node
+     *
+     * If `out` is nullptr, the value of `size` is set to the true size of the string
+     * attribute, and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the actual string attribute's size,
+     * the value of `size` is set to the true size of the string attribute, the provided memory
+     * is filled with the attribute's contents, and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual string attribute's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the string attribute
+     * and a failure status is returned.)
+     *
+     * \param[in] info ::OrtKernelInfo instance
+     * \param[in] name Null terminated string of the name of the attribute
+     * \param[out] out Pointer to memory where the attribute will be stored
+     * \param[in,out] size See above comments for details
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttribute_string, _In_ const OrtKernelInfo *info, _In_ const char *name, _Out_ char *out,
+                    _Inout_ size_t *size);
+
+    /// @}
+    /// \name OrtKernelContext
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Used for custom operators, get the input count of a kernel
+     *
+     * \see ::OrtCustomOp
+     */
+    ORT_API2_STATUS(KernelContext_GetInputCount, _In_ const OrtKernelContext *context, _Out_ size_t *out);
+
+    /** \brief Used for custom operators, get the output count of a kernel
+     *
+     * \see ::OrtCustomOp
+     */
+    ORT_API2_STATUS(KernelContext_GetOutputCount, _In_ const OrtKernelContext *context, _Out_ size_t *out);
+
+    /** \brief Used for custom operators, get an input of a kernel
+     *
+     * The function attempts fetches the input of the kernel. If the input is optional
+     * and not present, the function returns success and out is set to nullptr.
+     *
+     * \param[in] context ::OrtKernelContext instance
+     * \param[in] index See KernelContext_GetInputCount for boundaries check.
+     * \param[out] out OrtValue if the input is present otherwise is set nullptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelContext_GetInput, _In_ const OrtKernelContext *context, _In_ size_t index,
+                    _Out_ const OrtValue **out);
+
+    /** \brief Used for custom operators, get an output of a kernel
+     *
+     * The function attempts fetches the output of the kernel. If the output is optional
+     * and not present, the function returns success and out is set to nullptr.
+     *
+     * \param[in] context ::OrtKernelContext instance
+     * \param[in] index See KernelContext_GetOutputCount for boundaries check.
+     * \param[in] dim_values output dimensions
+     * \param[in] dim_count number of dimensions
+     * \param[out] out a ptr to OrtValue to output otherwise set to nullptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelContext_GetOutput, _Inout_ OrtKernelContext *context, _In_ size_t index,
+                    _In_ const int64_t *dim_values, size_t dim_count, _Outptr_ OrtValue **out);
+
+    /// @}
+    /// \name OrtEnv
+    /// @{
+    ORT_CLASS_RELEASE(Env);
+    /// @}
+    /// \name OrtStatus
+    /// @{
+    ORT_CLASS_RELEASE(Status);
+    /// @}
+    /// \name OrtMemoryInfo
+    /// @{
+    ORT_CLASS_RELEASE(MemoryInfo);
+    /// @}
+    /// \name OrtSession
+    /// @{
+    ORT_CLASS_RELEASE(Session); // Don't call ReleaseSession from Dllmain (because session owns a thread pool)
+    /// @}
+    /// \name OrtValue
+    /// @{
+    ORT_CLASS_RELEASE(Value);
+    /// @}
+    /// \name OrtRunOptions
+    /// @{
+    ORT_CLASS_RELEASE(RunOptions);
+    /// @}
+    /// \name OrtTypeInfo
+    /// @{
+    ORT_CLASS_RELEASE(TypeInfo);
+    /// @}
+    /// \name OrtTensorTypeAndShapeInfo
+    /// @{
+    ORT_CLASS_RELEASE(TensorTypeAndShapeInfo);
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+    ORT_CLASS_RELEASE(SessionOptions);
+    /// @}
+    /// \name OrtCustomOpDomain
+    /// @{
+    ORT_CLASS_RELEASE(CustomOpDomain);
+
+    /// @}
+    /// \name OrtTypeInfo
+    /// @{
+
+    /** \brief Get denotation from type information
+     *
+     * Augments ::OrtTypeInfo to return denotations on the type.
+     *
+     * This is used by WinML to determine if an input/output is intended to be an Image or a Tensor.
+     *
+     * \param[in] type_info
+     * \param[out] denotation Pointer to the null terminated denotation string is written to this pointer. This pointer is valid until the object is destroyed or the name is changed, do not free.
+     * \param[out] len Length in bytes of the string returned in `denotation`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetDenotationFromTypeInfo, _In_ const OrtTypeInfo *type_info, _Out_ const char **const denotation,
+                    _Out_ size_t *len);
+
+    /** \brief Get detailed map information from an ::OrtTypeInfo
+     *
+     * This augments ::OrtTypeInfo to return an ::OrtMapTypeInfo when the type is a map.
+     * The OrtMapTypeInfo has additional information about the map's key type and value type.
+     *
+     * This is used by WinML to support model reflection APIs.
+     *
+     * \param[out] type_info
+     * \param[out] out A pointer to the ::OrtMapTypeInfo. Do not free this value. If type_info
+     *             does not contain a map, this value will be set to nullptr.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CastTypeInfoToMapTypeInfo, _In_ const OrtTypeInfo *type_info,
+                    _Outptr_result_maybenull_ const OrtMapTypeInfo **out);
+
+    /** \brief Cast ::OrtTypeInfo to an ::OrtSequenceTypeInfo
+     *
+     * This api augments ::OrtTypeInfo to return an ::OrtSequenceTypeInfo when the type is a sequence.
+     * The ::OrtSequenceTypeInfo has additional information about the sequence's element type.
+     *
+     * This is used by WinML to support model reflection APIs.
+     *
+     * \param[in] type_info
+     * \param[out] out A pointer to the OrtSequenceTypeInfo. Do not free this value. If type_info
+     *             doesn not contain a sequence, this value will be set to nullptr.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CastTypeInfoToSequenceTypeInfo, _In_ const OrtTypeInfo *type_info,
+                    _Outptr_result_maybenull_ const OrtSequenceTypeInfo **out);
+
+    /// @}
+    /// \name OrtMapTypeInfo
+    /// @{
+
+    /** \brief Get key type from an ::OrtMapTypeInfo
+     *
+     * Key types are restricted to being scalar types.
+     *
+     * This is used by WinML to support model reflection APIs.
+     *
+     * \param[in] map_type_info
+     * \param[out] out
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetMapKeyType, _In_ const OrtMapTypeInfo *map_type_info, _Out_ enum ONNXTensorElementDataType *out);
+
+    /** \brief Get the value type from an ::OrtMapTypeInfo
+     *
+     * \param[in] map_type_info
+     * \param[out] type_info
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetMapValueType, _In_ const OrtMapTypeInfo *map_type_info, _Outptr_ OrtTypeInfo **type_info);
+
+    /// @}
+    /// \name OrtSequenceTypeInfo
+    /// @{
+
+    /** \brief Get element type from an ::OrtSequenceTypeInfo
+     *
+     * This is used by WinML to support model reflection APIs.
+     *
+     * \param[in] sequence_type_info
+     * \param[out] type_info
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSequenceElementType, _In_ const OrtSequenceTypeInfo *sequence_type_info,
+                    _Outptr_ OrtTypeInfo **type_info);
+
+    /// @}
+    /// \name OrtMapTypeInfo
+    /// @{
+    ORT_CLASS_RELEASE(MapTypeInfo);
+    /// @}
+    /// \name OrtSequenceTypeInfo
+    /// @{
+    ORT_CLASS_RELEASE(SequenceTypeInfo);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief End profiling and return filename of the profile data
+     *
+     * Profiling is turned on through OrtApi::EnableProfiling
+     *
+     * \param[in] session
+     * \param[in] allocator
+     * \param[out] out Null terminated string of the filename, allocated using `allocator`. Must be freed using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionEndProfiling, _In_ OrtSession *session, _Inout_ OrtAllocator *allocator, _Outptr_ char **out);
+
+    /** \brief Get ::OrtModelMetadata from an ::OrtSession
+     *
+     * \param[in] session
+     * \param[out] out Newly created ::OrtModelMetadata. Must be freed using OrtApi::ReleaseModelMetadata
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetModelMetadata, _In_ const OrtSession *session, _Outptr_ OrtModelMetadata **out);
+
+    /// @}
+    /// \name OrtModelMetadata
+    /// @{
+
+    /** \brief Get `producer name` from an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated string allocated using `allocator`. Must be freed using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetProducerName, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /** \brief Get `graph name` from an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated string allocated using `allocator`. Must be freed using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetGraphName, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /** \brief Get `domain` from an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated string allocated using `allocator`. Must be freed using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetDomain, _In_ const OrtModelMetadata *model_metadata, _Inout_ OrtAllocator *allocator,
+                    _Outptr_ char **value);
+
+    /** \brief Get `description` from an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[out] value Set to a null terminated string allocated using `allocator`. Must be freed using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetDescription, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /** \brief Return data for a key in the custom metadata map in an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[in] key Null terminated string
+     * \param[out] value Set to a null terminated string allocated using `allocator`. Must be freed using `allocator`
+     * `value` will be set to nullptr if the given key is not found in the custom metadata map.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataLookupCustomMetadataMap, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _In_ const char *key, _Outptr_result_maybenull_ char **value);
+
+    /** \brief Get version number from an ::OrtModelMetadata
+     *
+     * \param[in] model_metadata
+     * \param[out] value Set to the version number
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetVersion, _In_ const OrtModelMetadata *model_metadata, _Out_ int64_t *value);
+
+    ORT_CLASS_RELEASE(ModelMetadata);
+
+    /// @}
+    /// \name OrtEnv
+    /// @{
+
+    /** \brief Create an OrtEnv
+     *
+     * Create an environment with global threadpools that will be shared across sessions.
+     * Use this in conjunction with OrtApi::DisablePerSessionThreads or else the session will use
+     * its own thread pools.
+     *
+     * \param[in] log_severity_level The log severity level.
+     * \param[in] logid The log identifier.
+     * \param[in] tp_options
+     * \param[out] out Returned newly created OrtEnv. Must be freed with OrtApi::ReleaseEnv
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateEnvWithGlobalThreadPools, OrtLoggingLevel log_severity_level, _In_ const char *logid,
+                    _In_ const OrtThreadingOptions *tp_options, _Outptr_ OrtEnv **out);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Use global thread pool on a session
+     *
+     * Disable using per session thread pool and use the shared global threadpool.
+     * This should be used in conjunction with OrtApi::CreateEnvWithGlobalThreadPools.
+     *
+     * \param[in] options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(DisablePerSessionThreads, _Inout_ OrtSessionOptions *options);
+
+    /// @}
+    /// \name OrtThreadingOptions
+    /// @{
+
+    /** \brief Create an ::OrtThreadingOptions
+     *
+     * \param[out] out Newly created ::OrtThreadingOptions. Must be freed with OrtApi::ReleaseThreadingOptions
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateThreadingOptions, _Outptr_ OrtThreadingOptions **out);
+
+    ORT_CLASS_RELEASE(ThreadingOptions);
+
+    /// @}
+    /// \name OrtModelMetadata
+    /// @{
+
+    /**
+     *
+     * \param[in] model_metadata
+     * \param[in] allocator
+     * \param[out] keys Array of null terminated strings (array count = num_keys) allocated using `allocator`.
+     *  The strings and the pointer array must be freed using `allocator`
+     *  `keys` will be set to nullptr if the custom metadata map is empty.
+     * \param[out] num_keys Set to the number of elements in the `keys` array
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetCustomMetadataMapKeys, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _Outptr_result_buffer_maybenull_(*num_keys) char ***keys, _Out_ int64_t *num_keys);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /**
+     *
+     * Override symbolic dimensions (by specific name strings) with actual values
+     * if known at session initialization time to enable optimizations that can
+     * take advantage of fixed values (such as memory planning, etc)
+     *
+     */
+    ORT_API2_STATUS(AddFreeDimensionOverrideByName,
+                    _Inout_ OrtSessionOptions *options, _In_ const char *dim_name,
+                    _In_ int64_t dim_value);
+
+    /// @}
+    /// \name Misc
+    /// @{
+
+    /** \brief Get the names of all available providers
+     *
+     * \note The providers in the list are not guaranteed to be usable. They may fail to load due to missing system dependencies.
+     *    For example, if the CUDA/cuDNN libraries are not installed, the CUDA provider will report an error when it is added to the session options.
+     *
+     * \param[out] out_ptr Set to a pointer to an array of null terminated strings of the available providers. The entries and the
+     *    array itself must be freed using OrtApi::ReleaseAvailableProviders
+     * \param[out] provider_length Set to the number of entries in the `out_ptr` array
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetAvailableProviders, _Outptr_ char ***out_ptr, _Out_ int *provider_length);
+
+    /** \brief Release data from OrtApi::GetAvailableProviders. This API will never fail
+     * so you can rely on it in a noexcept code.
+     *
+     * \param[in] ptr The `out_ptr` result from OrtApi::GetAvailableProviders.
+     * \param[in] providers_length The `provider_length` result from OrtApi::GetAvailableProviders
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ReleaseAvailableProviders, _In_ char **ptr,
+                    _In_ int providers_length);
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /** \brief Get the length of a single string in a string tensor
+     *
+     * \param[in] value A string tensor
+     * \param[in] index Index of the string in the tensor
+     * \param[out] out Set to number of bytes of the string element
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetStringTensorElementLength, _In_ const OrtValue *value, size_t index, _Out_ size_t *out);
+
+    /** \brief Get a single string from a string tensor
+     *
+     * \param[in] value A string tensor
+     * \param[in] s_len Number of bytes in the `s` buffer. Must match the value returned by OrtApi::GetStringTensorElementLength.
+     * \param[in] index Index of the string in the tensor
+     * \param[out] s The string element contents in UTF-8 encoding. The string is NOT null-terminated.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetStringTensorElement, _In_ const OrtValue *value, size_t s_len, size_t index, _Out_writes_bytes_all_(s_len) void *s);
+
+    /** \brief Set a single string in a string tensor
+     *
+     * \param[in] value A string tensor
+     * \param[in] s A null terminated UTF-8 encoded string
+     * \param[in] index Index of the string in the tensor to set
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(FillStringTensorElement, _Inout_ OrtValue *value, _In_ const char *s, size_t index);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Set a session configuration entry as a pair of strings
+     *
+     * If a configuration with same key exists, this will overwrite the configuration with the given config_value.
+     *
+     * The config_key and the format of config_value are defined in onnxruntime_session_options_config_keys.h
+     *
+     * \param[in] options
+     * \param[in] config_key A null terminated string representation of the config key
+     * \param[in] config_value A null terminated string representation of the config value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddSessionConfigEntry, _Inout_ OrtSessionOptions *options,
+                    _In_z_ const char *config_key, _In_z_ const char *config_value);
+
+    /// @}
+    /// \name OrtAllocator
+    /// @{
+
+    /** \brief Create an allocator for an ::OrtSession following an ::OrtMemoryInfo
+     *
+     * \param[in] session
+     * \param[in] mem_info valid ::OrtMemoryInfo instance
+     * \param[out] out Newly created ::OrtAllocator. Must be freed with OrtApi::ReleaseAllocator
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateAllocator, _In_ const OrtSession *session, _In_ const OrtMemoryInfo *mem_info,
+                    _Outptr_ OrtAllocator **out);
+
+    /** \brief Release an ::OrtAllocator obtained from OrtApi::CreateAllocator
+     */
+    ORT_CLASS_RELEASE(Allocator);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief Run a model using Io Bindings for the inputs & outputs
+     *
+     * \see OrtApi::Run
+     *
+     * \param[in] session
+     * \param[in] run_options
+     * \param[in] binding_ptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunWithBinding, _Inout_ OrtSession *session, _In_ const OrtRunOptions *run_options, _In_ const OrtIoBinding *binding_ptr);
+
+    /** \brief Create an ::OrtIoBinding instance
+     *
+     * An IoBinding object allows one to bind pre-allocated ::OrtValue%s to input names.
+     * Thus if you want to use a raw on device buffer as input or output you can avoid
+     * extra copy during runtime.
+     *
+     * \param[in] session
+     * \param[out] out Newly created ::OrtIoBinding. Must be freed with OrtApi::ReleaseIoBinding
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateIoBinding, _Inout_ OrtSession *session, _Outptr_ OrtIoBinding **out);
+
+    /// @}
+    /// \name OrtIoBinding
+    /// @{
+
+    /** \brief Release an ::OrtIoBinding obtained from OrtApi::CreateIoBinding
+     */
+    ORT_CLASS_RELEASE(IoBinding);
+
+    /** \brief Bind an ::OrtValue to an ::OrtIoBinding input
+     *
+     * When using OrtApi::RunWithBinding this value is used for the named input
+     *
+     * \param[in] binding_ptr
+     * \param[in] name Name for the model input
+     * \param[in] val_ptr ::OrtValue of Tensor type.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(BindInput, _Inout_ OrtIoBinding *binding_ptr, _In_ const char *name, _In_ const OrtValue *val_ptr);
+
+    /** \brief Bind an ::OrtValue to an ::OrtIoBinding output
+     *
+     * When using OrtApi::RunWithBinding this value is used for the named output
+     *
+     * \param[in] binding_ptr
+     * \param[in] name Null terminated string of the model output name
+     * \param[in] val_ptr ::OrtValue of Tensor type.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(BindOutput, _Inout_ OrtIoBinding *binding_ptr, _In_ const char *name, _In_ const OrtValue *val_ptr);
+
+    /** \brief Bind an ::OrtIoBinding output to a device
+     *
+     * Binds the ::OrtValue to a device which is specified by ::OrtMemoryInfo.
+     * You can either create an instance of ::OrtMemoryInfo with a device id or obtain one from the allocator that you have created/are using
+     * This is useful when one or more outputs have dynamic shapes and, it is hard to pre-allocate and bind a chunk of
+     * memory within ::OrtValue ahead of time.
+     *
+     * \see OrtApi::RunWithBinding
+     *
+     * \param[in] binding_ptr
+     * \param[in] name Null terminated string of the device name
+     * \param[in] mem_info_ptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(BindOutputToDevice, _Inout_ OrtIoBinding *binding_ptr, _In_ const char *name, _In_ const OrtMemoryInfo *mem_info_ptr);
+
+    /** \brief Get the names of an ::OrtIoBinding's outputs
+     *
+     * Returns the names of the outputs in the order they were bound. This is useful after running the model
+     * with bound outputs because the returned names are in order in which output ::OrtValue are returned. This is useful if
+     * the order of outputs and their names is not known.
+     *
+     * \param[in] binding_ptr
+     * \param[in] allocator Allocator used to allocate continuous buffers for output strings and lengths.
+     * \param[out] buffer Returns an array of non-null terminated UTF-8 strings. The number of strings stored is returned in the count parameter.
+     *   This buffer is allocated using `allocator` and must be freed using it.
+     * \param[out] lengths Returns an array of `count` lengths of the strings returned in `buffer`
+     *   This buffer is allocated using `allocator` and must be freed using it.
+     * \param[out] count Number of strings returned. If `binding_ptr` has no bound outputs, zero is returned,
+     *              no memory allocation is performed and buffer and lengths are set to nullptr.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetBoundOutputNames, _In_ const OrtIoBinding *binding_ptr, _In_ OrtAllocator *allocator,
+                    _Out_ char **buffer, _Out_writes_all_(count) size_t **lengths, _Out_ size_t *count);
+
+    /** \brief Get the output ::OrtValue objects from an ::OrtIoBinding
+     *
+     * Returns an array of pointers to individually allocated ::OrtValue%s that contain results of a model execution with OrtApi::RunWithBinding
+     * The array contains the same number of ::OrtValue%s and they are in the same order as they were bound with OrtApi::BindOutput
+     * or OrtApi::BindOutputToDevice.
+     *
+     * The returned ::OrtValue%s must be released using OrtApi::ReleaseValue after they are no longer needed.
+     * The array is allocated using the specified instance of the allocator and must be freed using the same allocator after
+     * all the ::OrtValue%s contained therein are individually released.
+     *
+     * \param[in] binding_ptr
+     * \param[in] allocator Allocator used to allocate output array
+     * \param[out] output Set to the allocated array of allocated ::OrtValue outputs. Set to nullptr if there are 0 outputs.
+     * \param[out] output_count Set to number of ::OrtValue%s returned
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetBoundOutputValues, _In_ const OrtIoBinding *binding_ptr, _In_ OrtAllocator *allocator,
+                    _Out_writes_all_(output_count) OrtValue ***output, _Out_ size_t *output_count);
+
+    /** \brief Clears any previously set Inputs for an ::OrtIoBinding
+     */
+    void(ORT_API_CALL *ClearBoundInputs)(_Inout_ OrtIoBinding *binding_ptr) NO_EXCEPTION ORT_ALL_ARGS_NONNULL;
+
+    /** \brief Clears any previously set Outputs for an ::OrtIoBinding
+     */
+    void(ORT_API_CALL *ClearBoundOutputs)(_Inout_ OrtIoBinding *binding_ptr) NO_EXCEPTION ORT_ALL_ARGS_NONNULL;
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /** \brief Direct memory access to a specified tensor element
+     *
+     * For example, given a tensor with shape of [3,224,224], a pointer to the element at location [2,150,128] can be retrieved
+     *
+     * This function only works for numeric type tensors (No strings, etc).
+     * This is a no-copy method whose returned pointer is valid until the passed in ::OrtValue is free'd.
+     *
+     * \param[in] value
+     * \param[in] location_values Pointer to an array of index values that specify an element's location relative to its shape
+     * \param[in] location_values_count Number of elements in location_values. Must match the number of elements in the tensor's shape.
+     * \param[out] out Set to a pointer to the element specified
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(TensorAt, _Inout_ OrtValue *value, const int64_t *location_values, size_t location_values_count, _Outptr_ void **out);
+
+    /// @}
+    /// \name OrtEnv
+    /// @{
+
+    /** \brief Create an allocator and register it with the ::OrtEnv
+     *
+     * Enables sharing the allocator between multiple sessions that use the same env instance.
+     * Lifetime of the created allocator will be valid for the duration of the environment.
+     * Returns an error if an allocator with the same ::OrtMemoryInfo is already registered.
+     *
+     * See https://onnxruntime.ai/docs/get-started/with-c.html for details.
+     *
+     * \param[in] env ::OrtEnv instance
+     * \param[in] mem_info
+     * \param[in] arena_cfg Pass nullptr for defaults
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateAndRegisterAllocator, _Inout_ OrtEnv *env, _In_ const OrtMemoryInfo *mem_info,
+                    _In_ const OrtArenaCfg *arena_cfg);
+
+    /** \brief Set language projection
+     *
+     * Set the language projection for collecting telemetry data when Env is created.
+     *
+     * The default is ORT_PROJECTION_C, which means it will classify the language not in the list to C also.
+     *
+     * \param[in] ort_env
+     * \param[in] projection
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetLanguageProjection, _In_ const OrtEnv *ort_env, _In_ OrtLanguageProjection projection);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief Return the time that profiling was started
+     *
+     * \note The timer precision varies per platform. On Windows and MacOS, the precision will be ~100ns
+     *
+     * \param[in] session
+     * \param[out] out nanoseconds of profiling's start time
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionGetProfilingStartTimeNs, _In_ const OrtSession *session, _Outptr_ uint64_t *out);
+
+    /// @}
+    /// \name OrtThreadingOptions
+    /// @{
+
+    /** \brief Set global intra-op thread count
+     *
+     * This configures the global thread pool options to be used in the call to OrtApi::CreateEnvWithGlobalThreadPools
+     *
+     * \param[in] tp_options
+     * \param[in] intra_op_num_threads Number of threads, special values:<br>
+     *    0 = Use default thread count<br>
+     *    1 = The invoking thread will be used; no threads will be created in the thread pool.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalIntraOpNumThreads, _Inout_ OrtThreadingOptions *tp_options, int intra_op_num_threads);
+
+    /** \brief Set global inter-op thread count
+     *
+     * This configures the global thread pool options to be used in the call to OrtApi::CreateEnvWithGlobalThreadPools
+     *
+     * \param[in] tp_options
+     * \param[in] inter_op_num_threads Number of threads, special values:<br>
+     *    0 = Use default thread count<br>
+     *    1 = The invoking thread will be used; no threads will be created in the thread pool.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalInterOpNumThreads, _Inout_ OrtThreadingOptions *tp_options, int inter_op_num_threads);
+
+    /** \brief Set global spin control options
+     *
+     * This will configure the global thread pool options to be used in the call to OrtApi::CreateEnvWithGlobalThreadPools.
+     * Allow spinning of thread pools when their queues are empty. This will set the value for both
+     * inter_op and intra_op threadpools.
+     *
+     * \param[in] tp_options
+     * \param[in] allow_spinning Valid values are 0 or 1.<br>
+     *   0 = It won't spin (recommended if CPU usage is high)<br>
+     *   1 = Threadpool will spin to wait for queue to become non-empty
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalSpinControl, _Inout_ OrtThreadingOptions *tp_options, int allow_spinning);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Add a pre-allocated initializer to a session
+     *
+     * If a model contains an initializer with a name that is same as the name passed to this call,
+     * ORT will use this initializer instance instead of deserializing one from the model file. This
+     * is useful when you want to share the same initializer across sessions.
+     *
+     * \param[in] options
+     * \param[in] name Null terminated string of the initializer name
+     * \param[in] val ::OrtValue containing the initializer. Its lifetime and the underlying initializer buffer must be
+     *   managed by the user (created using the OrtApi::CreateTensorWithDataAsOrtValue) and it must outlive the session object
+     *   to which it is added.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddInitializer, _Inout_ OrtSessionOptions *options, _In_z_ const char *name,
+                    _In_ const OrtValue *val);
+
+    /// @}
+    /// \name OrtEnv
+    /// @{
+
+    /**
+     * Create a custom environment with global threadpools and logger that will be shared across sessions.
+     * Use this in conjunction with OrtApi::DisablePerSessionThreads or else the session will use
+     * its own thread pools.
+     *
+     * \param[in] logging_function A pointer to a logging function.
+     * \param[in] logger_param A pointer to arbitrary data passed as the ::OrtLoggingFunction `param` parameter to
+     *                         `logging_function`.
+     * \param[in] log_severity_level The log severity level.
+     * \param[in] logid The log identifier.
+     * \param[in] tp_options
+     * \param[out] out Newly created OrtEnv. Must be freed with OrtApi::ReleaseEnv
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateEnvWithCustomLoggerAndGlobalThreadPools, OrtLoggingFunction logging_function, _In_opt_ void *logger_param, OrtLoggingLevel log_severity_level,
+                    _In_ const char *logid, _In_ const struct OrtThreadingOptions *tp_options, _Outptr_ OrtEnv **out);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Append CUDA provider to session options
+     *
+     * If CUDA is not available (due to a non CUDA enabled build, or if CUDA is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] cuda_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_CUDA,
+                    _In_ OrtSessionOptions *options, _In_ const OrtCUDAProviderOptions *cuda_options);
+
+    /** \brief Append ROCM execution provider to the session options
+     *
+     * If ROCM is not available (due to a non ROCM enabled build, or if ROCM is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] rocm_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_ROCM,
+                    _In_ OrtSessionOptions *options, _In_ const OrtROCMProviderOptions *rocm_options);
+
+    /** \brief Append OpenVINO execution provider to the session options
+     *
+     * If OpenVINO is not available (due to a non OpenVINO enabled build, or if OpenVINO is not installed on the system), this function will fail.
+     *
+     * \param[in] options
+     * \param[in] provider_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_OpenVINO,
+                    _In_ OrtSessionOptions *options, _In_ const OrtOpenVINOProviderOptions *provider_options);
+
+    /// @}
+    /// \name OrtThreadingOptions
+    /// @{
+
+    /** \brief Set threading flush-to-zero and denormal-as-zero
+     *
+     * Sets global thread pool options to be used in the call to OrtApi::CreateEnvWithGlobalThreadPools.
+     * Flush-to-zero and denormal-as-zero are applied to threads in both intra and inter global thread pool.
+     * \note This option is not needed if the models used have no denormals. Having no denormals is recommended as this option may hurt model accuracy.
+     *
+     * \param[in] tp_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalDenormalAsZero, _Inout_ OrtThreadingOptions *tp_options);
+
+    /// @}
+    /// \name OrtArenaCfg
+    /// @{
+
+    /** \deprecated Use OrtApi::CreateArenaCfgV2
+     *
+     * This will create the configuration of an arena that can eventually be used to define an arena based allocator's behavior
+     *
+     * \param[in] max_mem Use 0 to allow ORT to choose the default
+     * \param[in] arena_extend_strategy Use -1 to allow ORT to choose the default, 0 = kNextPowerOfTwo, 1 = kSameAsRequested
+     * \param[in] initial_chunk_size_bytes Use -1 to allow ORT to choose the default
+     * \param[in] max_dead_bytes_per_chunk Use -1 to allow ORT to choose the default
+     * \param[in] out A pointer to an OrtArenaCfg instance
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateArenaCfg, _In_ size_t max_mem, int arena_extend_strategy, int initial_chunk_size_bytes,
+                    int max_dead_bytes_per_chunk, _Outptr_ OrtArenaCfg **out);
+
+    ORT_CLASS_RELEASE(ArenaCfg);
+
+    /// @}
+    /// \name OrtModelMetadata
+    /// @{
+
+    /**
+     * Use this to obtain the description of the graph present in the model
+     * (doc_string field of the GraphProto message within the ModelProto message).
+     * If it doesn't exist, an empty string will be returned.
+     *
+     * \param[in] model_metadata An instance of ::OrtModelMetadata
+     * \param[in] allocator Allocator used to allocate the string that will be returned back
+     * \param[out] value Set to a null terminated string allocated using `allocator`.  The caller is responsible for freeing it using `allocator`
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(ModelMetadataGetGraphDescription, _In_ const OrtModelMetadata *model_metadata,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **value);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Append TensorRT provider to session options
+     *
+     * If TensorRT is not available (due to a non TensorRT enabled build, or if TensorRT is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] tensorrt_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_TensorRT,
+                    _In_ OrtSessionOptions *options, _In_ const OrtTensorRTProviderOptions *tensorrt_options);
+
+    /// @}
+    /// \name Misc
+    /// @{
+
+    /** \brief Set current GPU device ID
+     *
+     * Set the current device id of the GPU execution provider (CUDA/tensorrt/rocm). The device id should be less
+     * than the total number of devices available. This is only useful when multiple-GPUs are installed and it is
+     * required to restrict execution to a single GPU.
+     *
+     * \param[in] device_id
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetCurrentGpuDeviceId, _In_ int device_id);
+
+    /** \brief Get current GPU device ID
+     *
+     * Get the current device id of the GPU execution provider (CUDA/tensorrt/rocm).
+     *
+     * \see OrtApi::SetCurrentGpuDeviceId
+     *
+     * \param[out] device_id
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetCurrentGpuDeviceId, _In_ int *device_id);
+
+    /// @}
+    /// \name OrtKernelInfo
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Fetch an array of int64_t values stored as an attribute in the graph node
+     *
+     *
+     * If `out` is nullptr, the value of `size` is set to the true size of the attribute
+     * array's size, and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the actual attribute array's size,
+     * the value of `size` is set to the true size of the attribute array's size,
+     * the provided memory is filled with the attribute's contents,
+     * and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual attribute array's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the attribute array's size
+     * and a failure status is returned.)
+     *
+     * \param[in] info instance
+     * \param[in] name name of the attribute to be parsed
+     * \param[out] out pointer to memory where the attribute's contents are to be stored
+     * \param[in, out] size actual size of attribute array
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttributeArray_float, _In_ const OrtKernelInfo *info, _In_ const char *name,
+                    _Out_ float *out, _Inout_ size_t *size);
+
+    /** \brief Fetch an array of int64_t values stored as an attribute in the graph node
+     *
+     * If `out` is nullptr, the value of `size` is set to the true size of the attribute
+     * array's size, and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the actual attribute array's size,
+     * the value of `size` is set to the true size of the attribute array's size,
+     * the provided memory is filled with the attribute's contents,
+     * and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual attribute array's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the attribute array's size
+     * and a failure status is returned.)
+     *
+     * \param[in] info instance
+     * \param[in] name name of the attribute to be parsed
+     * \param[out] out pointer to memory where the attribute's contents are to be stored
+     * \param[in, out] size actual size of attribute array
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttributeArray_int64, _In_ const OrtKernelInfo *info, _In_ const char *name,
+                    _Out_ int64_t *out, _Inout_ size_t *size);
+
+    /// @}
+    /// \name OrtArenaCfg
+    /// @{
+
+    /** \brief Create an ::OrtArenaCfg
+     *
+     * Create the configuration of an arena that can eventually be used to define an arena based allocator's behavior.
+     *
+     * Supported keys are (See https://onnxruntime.ai/docs/get-started/with-c.html for details on what the
+     * following parameters mean and how to choose these values.):
+     * "max_mem": Maximum memory that can be allocated by the arena based allocator.
+     *  Use 0 for ORT to pick the best value. Default is 0.
+     * "arena_extend_strategy": 0 = kNextPowerOfTwo, 1 = kSameAsRequested.
+     *  Use -1 to allow ORT to choose the default.
+     * "initial_chunk_size_bytes": (Possible) Size of the first allocation in the arena.
+     *  Only relevant if arena strategy is `kNextPowerOfTwo`. Use -1 to allow ORT to choose the default.
+     *  Ultimately, the first allocation size is determined by the allocation memory request.
+     * "max_dead_bytes_per_chunk": Threshold of unused memory in an allocated chunk of arena memory after
+     *  crossing which the current chunk is chunked into 2.
+     * "initial_growth_chunk_size_bytes": (Possible) Size of the second allocation in the arena.
+     *  Only relevant if arena strategy is `kNextPowerOfTwo`. Use -1 to allow ORT to choose the default.
+     * "max_power_of_two_extend_bytes": The maximum enxtend size if arena strategy is `kNextPowerOfTwo`.
+     *  It is not an allocation limit, it is only a limit for extension when requested byte is less than the limit.
+     *  When requested bytes is more than the limit, allocator will still return as requested.
+     *  Use -1 to allow ORT to choose the default 1GB for max_power_of_two_extend_bytes.
+     *  Ultimately, the allocation size is determined by the allocation memory request.
+     *  Further allocation sizes are governed by the arena extend strategy.
+     *
+     * \param[in] arena_config_keys Keys to configure the arena
+     * \param[in] arena_config_values Values to configure the arena
+     * \param[in] num_keys Number of keys in `arena_config_keys` and `arena_config_values`
+     * \param[out] out Newly created ::OrtArenaCfg. Must be freed with OrtApi::ReleaseArenaCfg
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateArenaCfgV2, _In_reads_(num_keys) const char *const *arena_config_keys,
+                    _In_reads_(num_keys) const size_t *arena_config_values, _In_ size_t num_keys,
+                    _Outptr_ OrtArenaCfg **out);
+
+    /// @}
+    /// \name OrtRunOptions
+    /// @{
+
+    /** \brief Set a single run configuration entry as a pair of strings
+     *
+     * If a configuration with same key exists, this will overwrite the configuration with the given config_value
+     *
+     * The config_key and the format of config_value are defined in onnxruntime_run_options_config_keys.h
+     *
+     * \param[in] options
+     * \param[in] config_key A null terminated string representation of the config key
+     * \param[in] config_value  A null terminated string representation of the config value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddRunConfigEntry, _Inout_ OrtRunOptions *options,
+                    _In_z_ const char *config_key, _In_z_ const char *config_value);
+
+    /// @}
+    /// \name OrtPrepackedWeightsContainer
+    /// @{
+
+    /** \brief Create an ::OrtPrepackedWeightsContainer
+     *
+     * This container will hold pre-packed buffers of shared initializers for sharing between sessions
+     * (i.e.) if there are shared initializers that can be shared between sessions, the pre-packed buffers
+     * of these (if any) may possibly be shared to provide memory footprint savings. Pass this container
+     * to sessions that you would like to share pre-packed buffers of shared initializers at session
+     * creation time.
+     *
+     *  \param[out] out Newly created ::OrtPrepackedWeightsContainer. Must be freed with OrtApi::ReleasePrepackedWeightsContainer
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreatePrepackedWeightsContainer, _Outptr_ OrtPrepackedWeightsContainer **out);
+
+    /** \brief Release OrtPrepackedWeightsContainer instance
+     *
+     * \note instance must not be released until the sessions using it are released
+     */
+    ORT_CLASS_RELEASE(PrepackedWeightsContainer);
+
+    /// @}
+    /// \name OrtSession
+    /// @{
+
+    /** \brief Create session with prepacked weights container
+     *
+     * Same functionality offered by OrtApi::CreateSession except that a container that contains
+     * pre-packed weights' buffers is written into/read from by the created session.
+     * This is useful when used in conjunction with OrtApi::AddInitializer which injects
+     * shared initializer info into sessions. Wherever possible, the pre-packed versions of these
+     * shared initializers are cached in this container so that multiple sessions can just re-use
+     * these instead of duplicating these in memory.
+     *
+     * \param[in] env OrtEnv instance instance
+     * \param[in] model_path Null terminated string of the path (wchar on Windows, char otherwise)
+     * \param[in] options
+     * \param[in] prepacked_weights_container
+     * \param[out] out Newly created ::OrtSession. Must be freed with OrtApi::ReleaseSession
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSessionWithPrepackedWeightsContainer, _In_ const OrtEnv *env, _In_ const ORTCHAR_T *model_path,
+                    _In_ const OrtSessionOptions *options, _Inout_ OrtPrepackedWeightsContainer *prepacked_weights_container,
+                    _Outptr_ OrtSession **out);
+
+    /** \brief Create session from memory with prepacked weights container
+     *
+     * Same functionality offered by OrtApi::CreateSessionFromArray except that a container that contains
+     * pre-packed weights' buffers is written into/read from by the created session.
+     * This is useful when used in conjunction with OrtApi::AddInitializer which injects
+     * shared initializer info into sessions. Wherever possible, the pre-packed versions of these
+     * shared initializers are cached in this container so that multiple sessions can just re-use
+     * these instead of duplicating these in memory.
+     *
+     * \param[in] env
+     * \param[in] model_data Array of bytes holding the model
+     * \param[in] model_data_length Number of bytes in `model_data_model`
+     * \param[in] options
+     * \param[in] prepacked_weights_container
+     * \param[out] out Newly created ::OrtSession. Must be freed with OrtApi::ReleaseSession
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSessionFromArrayWithPrepackedWeightsContainer, _In_ const OrtEnv *env,
+                    _In_ const void *model_data, size_t model_data_length,
+                    _In_ const OrtSessionOptions *options, _Inout_ OrtPrepackedWeightsContainer *prepacked_weights_container,
+                    _Outptr_ OrtSession **out);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Append TensorRT execution provider to the session options
+     *
+     * If TensorRT is not available (due to a non TensorRT enabled build), this function will return failure.
+     *
+     * This is slightly different from OrtApi::SessionOptionsAppendExecutionProvider_TensorRT, it takes an
+     * ::OrtTensorRTProviderOptions which is publicly defined. This takes an opaque ::OrtTensorRTProviderOptionsV2
+     * which must be created with OrtApi::CreateTensorRTProviderOptions.
+     *
+     * For OrtApi::SessionOptionsAppendExecutionProvider_TensorRT, the user needs to instantiate ::OrtTensorRTProviderOptions
+     * as well as allocate/release buffers for some members of ::OrtTensorRTProviderOptions.
+     * Here, OrtApi::CreateTensorRTProviderOptions and Ortapi::ReleaseTensorRTProviderOptions will do the memory management for you.
+     *
+     * \param[in] options
+     * \param[in] tensorrt_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_TensorRT_V2,
+                    _In_ OrtSessionOptions *options, _In_ const OrtTensorRTProviderOptionsV2 *tensorrt_options);
+
+    /// @}
+    /// \name OrtTensorRTProviderOptionsV2
+    /// @{
+
+    /** \brief Create an OrtTensorRTProviderOptionsV2
+     *
+     * \param[out] out Newly created ::OrtTensorRTProviderOptionsV2. Must be released with OrtApi::ReleaseTensorRTProviderOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateTensorRTProviderOptions, _Outptr_ OrtTensorRTProviderOptionsV2 **out);
+
+    /** \brief Set options in a TensorRT Execution Provider.
+     *
+     * Please refer to https://onnxruntime.ai/docs/execution-providers/TensorRT-ExecutionProvider.html#cc
+     * to know the available keys and values. Key should be in null terminated string format of the member of ::OrtTensorRTProviderOptionsV2
+     * and value should be its related range. Recreates the options and only sets the supplied values.
+     *
+     * For example, key="trt_max_workspace_size" and value="2147483648"
+     *
+     * \param[in] tensorrt_options
+     * \param[in] provider_options_keys Array of UTF-8 null-terminated string for provider options keys
+     * \param[in] provider_options_values Array of UTF-8 null-terminated string for provider options values
+     * \param[in] num_keys Number of elements in the `provider_option_keys` and `provider_options_values` arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(UpdateTensorRTProviderOptions, _Inout_ OrtTensorRTProviderOptionsV2 *tensorrt_options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /** \brief Get serialized TensorRT provider options string.
+     *
+     * For example, "trt_max_workspace_size=2147483648;trt_max_partition_iterations=10;trt_int8_enable=1;......"
+     *
+     * \param tensorrt_options - OrtTensorRTProviderOptionsV2 instance
+     * \param allocator - a ptr to an instance of OrtAllocator obtained with OrtApi::CreateAllocator or OrtApi::GetAllocatorWithDefaultOptions
+     *                      the specified allocator will be used to allocate continuous buffers for output strings and lengths.
+     * \param ptr - is a UTF-8 null terminated string allocated using 'allocator'. The caller is responsible for using the same allocator to free it.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorRTProviderOptionsAsString, _In_ const OrtTensorRTProviderOptionsV2 *tensorrt_options, _Inout_ OrtAllocator *allocator, _Outptr_ char **ptr);
+
+    /** \brief Release an ::OrtTensorRTProviderOptionsV2
+     *
+     * \note This is an exception in the naming convention of other Release* functions, as the name of the method does not have the V2 suffix, but the type does
+     */
+    void(ORT_API_CALL *ReleaseTensorRTProviderOptions)(_Frees_ptr_opt_ OrtTensorRTProviderOptionsV2 *input);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Enable custom operators
+     *
+     * See onnxruntime-extensions: https://github.com/microsoft/onnxruntime-extensions.git
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(EnableOrtCustomOps, _Inout_ OrtSessionOptions *options);
+
+    /// @}
+    /// \name OrtAllocator
+    /// @{
+
+    /** \brief Register a custom allocator
+     *
+     * Enables sharing between multiple sessions that use the same env instance.
+     * Returns an error if an allocator with the same ::OrtMemoryInfo is already registered.
+     *
+     * The behavior of this is exactly the same as OrtApi::CreateAndRegisterAllocator except
+     * instead of ORT creating an allocator based on provided info, in this case
+     * ORT uses the user-provided custom allocator.
+     * See https://onnxruntime.ai/docs/get-started/with-c.html for details.
+     *
+     * \param[in] env
+     * \param[in] allocator User provided allocator
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RegisterAllocator, _Inout_ OrtEnv *env, _In_ OrtAllocator *allocator);
+
+    /** \brief Unregister a custom allocator
+     *
+     * It is an error if you provide an ::OrtMemoryInfo not corresponding to any
+     * registered allocators for sharing.
+     *
+     * \param[in] env
+     * \param[in] mem_info
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(UnregisterAllocator, _Inout_ OrtEnv *env,
+                    _In_ const OrtMemoryInfo *mem_info);
+
+    /// @}
+    /// \name OrtValue
+    /// @{
+
+    /** \brief Sets *out to 1 iff an ::OrtValue is a SparseTensor, and 0 otherwise
+     *
+     * \param[in] value existing ::OrtValue
+     * \param[out] out unless an error occurs, contains 1 iff the value contains an instance
+     *  of sparse tensor or 0 otherwise.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(IsSparseTensor, _In_ const OrtValue *value, _Out_ int *out);
+
+    /** \brief Create an ::OrtValue with a sparse tensor that is empty.
+     *
+     * Use FillSparseTensor<Format>() functions to populate sparse tensor with non-zero values and
+     * format specific indices data.
+     * Use ReleaseValue to destroy the sparse tensor, this will also release the buffer inside the output value
+     * if any was allocated.
+     * \param[in,out] allocator allocator to use when performing an allocation. Allocation will be performed
+     *   by FillSparseTensor<Format>() APIs. The lifespan of the allocator instance must eclipse the lifespan
+     *   this sparse tensor instance as the same allocator will be used to free memory.
+     * \param[in] dense_shape shape of the original dense tensor
+     * \param[in] dense_shape_len number of shape dimensions being passed
+     * \param[in] type must be one of TENSOR_ELEMENT_DATA_TYPE_xxxx
+     * \param[out] out Should be freed by calling ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSparseTensorAsOrtValue, _Inout_ OrtAllocator *allocator, _In_ const int64_t *dense_shape,
+                    size_t dense_shape_len, ONNXTensorElementDataType type, _Outptr_ OrtValue **out);
+
+    /**
+     * This fills populates an empty tensor that was created using OrtApi::CreateSparseTensorAsOrtValue.
+     * This will allocate required memory and copy the supplied NNZ values and COO indices into that memory allocation.
+     * Memory allocation is performed using the allocator that was specified with OrtApi::CreateSparseTensorAsOrtValue.
+     *
+     * \param[in,out] ort_value ::OrtValue to populate with data
+     * \param[in] data_mem_info serves to identify the location of the data to be copied. If the allocator specified
+     *  at the creation time has memory info that is not the same as mem_info argument to this function a X-device copy will be performed.
+     *  String data is assumed to be on CPU and will only be copied into a CPU allocated buffer.
+     * \param[in] values_shape pointer to values shape array
+     * \param[in] values_shape_len length of the values_shape
+     * \param[in] values pointer to an array of values. For strings, pass const char**.
+     * \param[in] indices_data pointer to a location of COO indices
+     * \param[in] indices_num number of COO indices
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(FillSparseTensorCoo, _Inout_ OrtValue *ort_value, _In_ const OrtMemoryInfo *data_mem_info,
+                    _In_ const int64_t *values_shape, size_t values_shape_len, _In_ const void *values,
+                    _In_ const int64_t *indices_data, size_t indices_num);
+
+    /**
+     * This fills populates an empty tensor that was created using OrtApi::CreateSparseTensorAsOrtValue.
+     * This will allocate required memory and copy the supplied NNZ values and CSR indices into that memory allocation.
+     * Memory allocation is performed using the allocator that was specified with OrtApi::CreateSparseTensorAsOrtValue.
+     *
+     * \param[in,out] ort_value ::OrtValue to populate with data
+     * \param[in] data_mem_info serves to identify the location of the data to be copied. If the allocator specified
+     *  at the creation time has memory info that is not the same as mem_info argument to this function a X-device copy will be performed.
+     *  String data is assumed to be on CPU and will only be copied into a CPU allocated buffer.
+     * \param[in] values_shape pointer to values shape array
+     * \param[in] values_shape_len length of the values_shape
+     * \param[in] values - pointer to an array of values. For strings, pass const char**.
+     * \param[in] inner_indices_data pointer to a location of CSR inner indices
+     * \param[in] inner_indices_num number of CSR inner indices
+     * \param[in] outer_indices_data pointer to a location of CSR outer indices
+     * \param[in] outer_indices_num number of CSR outer indices
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(FillSparseTensorCsr, _Inout_ OrtValue *ort_value, _In_ const OrtMemoryInfo *data_mem_info,
+                    _In_ const int64_t *values_shape, size_t values_shape_len, _In_ const void *values,
+                    _In_ const int64_t *inner_indices_data, size_t inner_indices_num,
+                    _In_ const int64_t *outer_indices_data, size_t outer_indices_num);
+
+    /**
+     * This fills populates an empty tensor that was created using OrtApi::CreateSparseTensorAsOrtValue.
+     * This will allocate required memory and copy the supplied NNZ values and BlockSparse indices into that memory allocation.
+     * Memory allocation is performed using the allocator that was specified with OrtApi::CreateSparseTensorAsOrtValue.
+     *
+     * \param[in,out] ort_value ::OrtValue to populate with data
+     * \param[in] data_mem_info serves to identify the location of the data to be copied. If the allocator specified
+     *  at the creation time has memory info that is not the same as mem_info argument to this function a X-device copy will be performed.
+     *  String data is assumed to be on CPU and will only be copied into a CPU allocated buffer.
+     * \param[in] values_shape
+     * \param[in] values_shape_len
+     * \param[in] values structure with values information
+     * \param[in] indices_shape_data pointer to a location of indices shape
+     * \param[in] indices_shape_len length of the block sparse indices shape
+     * \param[in] indices_data pointer to a location of indices data. Shape will determine the length of the indices data.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(FillSparseTensorBlockSparse, _Inout_ OrtValue *ort_value, _In_ const OrtMemoryInfo *data_mem_info,
+                    _In_ const int64_t *values_shape, size_t values_shape_len, _In_ const void *values,
+                    _In_ const int64_t *indices_shape_data, size_t indices_shape_len,
+                    _In_ const int32_t *indices_data);
+
+    /**
+     * Create an ::OrtValue with a sparse tensor. This is the first step.
+     * Next, use Use<Format>Indices() functions to supply sparse tensor with
+     * format specific indices data and set its sparse format to a specific enum value.
+     * This will not perform memory allocations. It will
+     * use supplied user buffer which should outlive the created sparse tensor.
+     * Use OrtApi::ReleaseValue to destroy the sparse tensor. It would not release the supplied values buffer.
+     * This function can not be used to map strings from the user allocated memory. Strings must always be copied
+     * and have UTF-8 encoding. Therefore, use OrtApi::CreateSparseTensorAsOrtValue above and then fill it with data
+     * using appropriate Make*() function.
+     *
+     * \param[in] info memory info where sparse values reside.
+     * \param[in,out] p_data pointer to a user allocated buffer with values. To create a full sparse tensor with no non-zero
+     *   values, pass nullptr
+     * \param[in] dense_shape shape of the original dense tensor
+     * \param[in] dense_shape_len number of shape dimensions being passed
+     * \param[in] values_shape shape of the values data. To create a fully sparse tensor with no non-zero values,
+     *   pass {0} shape.
+     * \param[in] values_shape_len number of values shape dimensions
+     * \param[in] type must be one of TENSOR_ELEMENT_DATA_TYPE_xxxx
+     * \param[out] out Should be freed by calling ReleaseValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateSparseTensorWithValuesAsOrtValue, _In_ const OrtMemoryInfo *info, _Inout_ void *p_data,
+                    _In_ const int64_t *dense_shape, size_t dense_shape_len,
+                    _In_ const int64_t *values_shape, size_t values_shape_len,
+                    ONNXTensorElementDataType type, _Outptr_ OrtValue **out);
+
+    /**
+     * This assigns Coo format indices to the SparseTensor that was created by
+     * OrtApi::CreateSparseTensorWithValuesAsOrtValue above. It also sets OrtSparseFormat to
+     * ORT_SPARSE_COO. This will not allocate any additional memory for data. The life span of
+     * indices_data buffer should eclipse the life span of this ::OrtValue.
+     *
+     * \param[in,out] ort_value ::OrtValue instance constructed with OrtApi::CreateSparseTensorWithValuesAsOrtValue
+     * \param[in,out] indices_data pointer to a user pre-allocated buffer or nullptr for fully sparse tensors.
+     * \param[in] indices_num  number of COO indices. Should either be 0 for fully sparse tensors, be equal
+     *  to the number of nnz values specified to OrtApi::CreateSparseTensorWithValuesAsOrtValue for 1-D {nnz} indices or
+     *  be twice as number of nnz values for a  2-D indices {nnz, 2}
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(UseCooIndices, _Inout_ OrtValue *ort_value, _Inout_ int64_t *indices_data, size_t indices_num);
+
+    /**
+     * The assigns CSR format indices to the SparseTensor that was created by
+     * OrtApi::CreateSparseTensorWithValuesAsOrtValue above. It also sets OrtSparseFormat to
+     * ORT_SPARSE_CSRC. This will not allocate any additional memory for data. The life spans of
+     * inner_data and outer_data buffers should eclipse the life span of this ::OrtValue.
+     *
+     * \param[in,out] ort_value ::OrtValue instance constructed with OrtApi::CreateSparseTensorWithValuesAsOrtValue
+     * \param[in,out] inner_data pointer to a user pre-allocated buffer or nullptr for fully sparse tensors.
+     * \param[in] inner_num  number of inner CSR indices. Should either be 0 for fully sparse tensors or be equal
+     * to the number of nnz values specified to OrtApi::CreateSparseTensorWithValuesAsOrtValue.
+     * \param[in,out] outer_data pointer to user pre-allocated buffer or nullptr for fully sparse tensors.
+     * \param[in] outer_num number of CSR outer indices. Should either be 0 for fully sparse tensors or
+     * equal to rows + 1 of the dense shape.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(UseCsrIndices, _Inout_ OrtValue *ort_value, _Inout_ int64_t *inner_data, size_t inner_num,
+                    _Inout_ int64_t *outer_data, size_t outer_num);
+
+    /**
+     * The assigns BlockSparse format indices to the SparseTensor that was created by
+     * OrtApi::CreateSparseTensorWithValuesAsOrtValue above. It also sets OrtSparseFormat to
+     * ORT_SPARSE_BLOCK_SPARSE. This will not allocate any additional memory for data. The life span of
+     * indices_data buffer must eclipse the lifespan of this ::OrtValue.
+     *
+     * \param[in,out] ort_value OrtValue instance constructed with OrtApi::CreateSparseTensorWithValuesAsOrtValue
+     * \param[in] indices_shape pointer to indices shape. Use {0} for fully sparse tensors
+     * \param[in] indices_shape_len length of the indices shape
+     * \param[in,out] indices_data pointer to user pre-allocated buffer or nullptr for fully sparse tensors.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(UseBlockSparseIndices, _Inout_ OrtValue *ort_value, const int64_t *indices_shape, size_t indices_shape_len, _Inout_ int32_t *indices_data);
+
+    /** \brief Returns sparse tensor format enum iff a given ort value contains an instance of sparse tensor.
+     *
+     * \param[in] ort_value ::OrtValue that contains an instance of sparse tensor
+     * \param[out] out pointer to out parameter
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSparseTensorFormat, _In_ const OrtValue *ort_value, _Out_ enum OrtSparseFormat *out);
+
+    /** \brief Returns data type and shape of sparse tensor values (nnz) iff ::OrtValue contains a SparseTensor.
+     *
+     * \param[in] ort_value An ::OrtValue that contains a fully constructed sparse tensor
+     * \param[out] out Must be freed by OrtApi::ReleaseTensorTypeAndShapeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSparseTensorValuesTypeAndShape, _In_ const OrtValue *ort_value, _Outptr_ OrtTensorTypeAndShapeInfo **out);
+
+    /** \brief Returns numeric data for sparse tensor values (nnz). For string values use GetStringTensor*().
+     *
+     * \param[in] ort_value an instance of ::OrtValue containing sparse tensor
+     * \param[out] out returns a pointer to values data.  Do not attempt to free this ptr.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSparseTensorValues, _In_ const OrtValue *ort_value, _Outptr_ const void **out);
+
+    /** \brief Returns data type, shape for the type of indices specified by indices_format.
+     *
+     * \param[in] ort_value ::OrtValue containing sparse tensor.
+     * \param[in] indices_format One of the indices formats. It is an error to request a format that the sparse
+     * tensor does not contain.
+     * \param[out] out an instance of ::OrtTensorTypeAndShapeInfo. Must be freed by OrtApi::ReleaseTensorTypeAndShapeInfo
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSparseTensorIndicesTypeShape, _In_ const OrtValue *ort_value, enum OrtSparseIndicesFormat indices_format, _Outptr_ OrtTensorTypeAndShapeInfo **out);
+
+    /** \brief Returns indices data for the type of the indices specified by indices_format
+     *
+     * \param[in] ort_value ::OrtValue containing sparse tensor.
+     * \param[in] indices_format One of the indices formats. It is an error to request a format that the sparse tensor does not contain.
+     * \param[out] num_indices Pointer to where the number of indices entries is returned
+     * \param[out] indices Returned pointer to the indices data. Do not free the returned pointer as it refers to internal data owned by the ::OrtValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetSparseTensorIndices, _In_ const OrtValue *ort_value, enum OrtSparseIndicesFormat indices_format, _Out_ size_t *num_indices, _Outptr_ const void **indices);
+    /// @}
+    /// \name OrtSessionOptions
+    /// @{
+
+    /**
+     * \brief Sets out to 1 iff an optional type OrtValue has an element, 0 otherwise (OrtValue is None)
+     * Use this API to find if the optional type OrtValue is None or not.
+     * If the optional type OrtValue is not None, use the OrtValue just like any other OrtValue.
+     * For example, if you get an OrtValue that corresponds to Optional(tensor) and
+     * if HasValue() returns true, use it as tensor and so on.
+
+     * \param[in] value Input OrtValue.
+     * \param[out] out indicating if the input OrtValue contains data (1) or if it is a None (0)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(HasValue, _In_ const OrtValue *value, _Out_ int *out);
+
+    /// @}
+    /// \name OrtKernelContext
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Used for custom operators, gets the GPU compute stream to use to launch the custom a GPU kernel
+     *   \see ::OrtCustomOp
+     * \param[in]  context OrtKernelContext instance
+     * \param[out] out Returns pointer to a GPU compute stream that can be used to launch the custom GPU kernel.
+     *             If retrieving the GPU compute stream is not relevant (GPU not enabled in the build, kernel partitioned to
+     *             some other EP), then a nullptr is returned as the output param.
+     *             Do not free or mutate the returned pointer as it refers to internal data owned by the underlying session.
+     *             Only use it for custom kernel launching.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelContext_GetGPUComputeStream, _In_ const OrtKernelContext *context, _Outptr_ void **out);
+
+    /// @}
+    /// \name GetTensorMemoryInfo
+    /// @{
+    /** \brief Returns a pointer to the ::OrtMemoryInfo of a Tensor
+     * \param[in] value ::OrtValue containing tensor.
+     * \param[out] mem_info ::OrtMemoryInfo of the tensor. Do NOT free the returned pointer. It is valid for the lifetime of the ::OrtValue
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetTensorMemoryInfo, _In_ const OrtValue *value, _Out_ const OrtMemoryInfo **mem_info);
+
+    /// @}
+    /// \name GetExecutionProviderApi
+    /// @{
+    /** \brief Get a pointer to the requested version of the Execution Provider specific
+     * API extensions to the OrtApi
+     * \param[in] provider_name The name of the execution provider name. Currently only the following
+     * values are supported: "DML".
+     * \param[in] version Must be ::ORT_API_VERSION.
+     * \param[out] provider_api A void pointer containing a reference to the execution provider versioned api structure.
+     * For example, the provider_api pointer can be cast to the OrtDmlApi* when the provider_name is "DML".
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetExecutionProviderApi, _In_ const char *provider_name, _In_ uint32_t version, _Outptr_ const void **provider_api);
+
+    /// @}
+
+    /// \name SessionOptions
+    /// @{
+    /** \brief Set custom thread creation function
+     *
+     * \param[in] options Session options
+     * \param[in] ort_custom_create_thread_fn Custom thread creation function
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsSetCustomCreateThreadFn, _Inout_ OrtSessionOptions *options, _In_ OrtCustomCreateThreadFn ort_custom_create_thread_fn);
+
+    /** \brief Set creation options for custom thread
+     *
+     * \param[in] options Session options
+     * \param[in] ort_custom_thread_creation_options Custom thread creation options (can be nullptr)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsSetCustomThreadCreationOptions, _Inout_ OrtSessionOptions *options, _In_ void *ort_custom_thread_creation_options);
+
+    /** \brief Set custom thread join function
+     *
+     * \param[in] options Session options
+     * \param[in] ort_custom_join_thread_fn Custom join thread function, must not be nullptr when ort_custom_create_thread_fn is set
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsSetCustomJoinThreadFn, _Inout_ OrtSessionOptions *options, _In_ OrtCustomJoinThreadFn ort_custom_join_thread_fn);
+    /// @}
+
+    /// \name OrtThreadingOptions
+    /// @{
+    /** \brief Set custom thread creation function for global thread pools
+     *
+     * \param[inout] tp_options
+     * \param[in] ort_custom_create_thread_fn Custom thread creation function
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalCustomCreateThreadFn, _Inout_ OrtThreadingOptions *tp_options, _In_ OrtCustomCreateThreadFn ort_custom_create_thread_fn);
+
+    /** \brief Set custom thread creation options for global thread pools
+     *
+     * \param[inout] tp_options
+     * \param[in] ort_custom_thread_creation_options Custom thread creation options (can be nullptr)
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalCustomThreadCreationOptions, _Inout_ OrtThreadingOptions *tp_options, _In_ void *ort_custom_thread_creation_options);
+
+    /** \brief Set custom thread join function for global thread pools
+     *
+     * \param[inout] tp_options
+     * \param[in] ort_custom_join_thread_fn Custom thread join function, must not be nullptr when global ort_custom_create_thread_fn is set
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetGlobalCustomJoinThreadFn, _Inout_ OrtThreadingOptions *tp_options, _In_ OrtCustomJoinThreadFn ort_custom_join_thread_fn);
+    /// @}
+
+    /** \brief Synchronize bound inputs. The call may be necessary for some providers, such as cuda,
+     *   in case the system that allocated bound memory operated on a different stream. However, the
+     *   operation is provider specific and could be a no-op.
+     *
+     * \param[inout] binding_ptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SynchronizeBoundInputs, _Inout_ OrtIoBinding *binding_ptr);
+
+    /** \brief Synchronize bound outputs. The call may be necessary for some providers, such as cuda,
+     *   in case the system that allocated bound memory operated on a different stream. However, the
+     *   operation is provider specific and could be a no-op.
+     *
+     * \param[inout] binding_ptr
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SynchronizeBoundOutputs, _Inout_ OrtIoBinding *binding_ptr);
+
+    /// \name OrtSessionOptions
+    /// @{
+
+    /** \brief Append CUDA execution provider to the session options
+     *
+     * If CUDA is not available (due to a non CUDA enabled build), this function will return failure.
+     *
+     * This is slightly different from OrtApi::SessionOptionsAppendExecutionProvider_CUDA, it takes an
+     * ::OrtCUDAProviderOptions which is publicly defined. This takes an opaque ::OrtCUDAProviderOptionsV2
+     * which must be created with OrtApi::CreateCUDAProviderOptions.
+     *
+     * For OrtApi::SessionOptionsAppendExecutionProvider_CUDA, the user needs to instantiate ::OrtCUDAProviderOptions
+     * as well as allocate/release buffers for some members of ::OrtCUDAProviderOptions.
+     * Here, OrtApi::CreateCUDAProviderOptions and Ortapi::ReleaseCUDAProviderOptions will do the memory management for you.
+     *
+     * \param[in] options
+     * \param[in] cuda_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.11.
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_CUDA_V2,
+                    _In_ OrtSessionOptions *options, _In_ const OrtCUDAProviderOptionsV2 *cuda_options);
+
+    /// @}
+    /// \name OrtCUDAProviderOptionsV2
+    /// @{
+
+    /** \brief Create an OrtCUDAProviderOptionsV2
+     *
+     * \param[out] out Newly created ::OrtCUDAProviderOptionsV2. Must be released with OrtApi::ReleaseCudaProviderOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.11.
+     */
+    ORT_API2_STATUS(CreateCUDAProviderOptions, _Outptr_ OrtCUDAProviderOptionsV2 **out);
+
+    /** \brief Set options in a CUDA Execution Provider.
+     *
+     * Please refer to https://onnxruntime.ai/docs/execution-providers/CUDA-ExecutionProvider.html#configuration-options
+     * to know the available keys and values. Key should be in null terminated string format of the member of ::OrtCUDAProviderOptionsV2
+     * and value should be its related range. Recreates the options and only sets the supplied values.
+     *
+     * For example, key="device_id" and value="0"
+     *
+     * \param[in] cuda_options
+     * \param[in] provider_options_keys Array of UTF-8 null-terminated string for provider options keys
+     * \param[in] provider_options_values Array of UTF-8 null-terminated string for provider options values
+     * \param[in] num_keys Number of elements in the `provider_option_keys` and `provider_options_values` arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.11.
+     */
+    ORT_API2_STATUS(UpdateCUDAProviderOptions, _Inout_ OrtCUDAProviderOptionsV2 *cuda_options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /**
+     * Get serialized CUDA provider options string.
+     *
+     * For example, "device_id=0;arena_extend_strategy=0;......"
+     *
+     * \param cuda_options - OrtCUDAProviderOptionsV2 instance
+     * \param allocator - a ptr to an instance of OrtAllocator obtained with CreateAllocator() or GetAllocatorWithDefaultOptions()
+     *                      the specified allocator will be used to allocate continuous buffers for output strings and lengths.
+     * \param ptr - is a UTF-8 null terminated string allocated using 'allocator'. The caller is responsible for using the same allocator to free it.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.11.
+     */
+    ORT_API2_STATUS(GetCUDAProviderOptionsAsString, _In_ const OrtCUDAProviderOptionsV2 *cuda_options, _Inout_ OrtAllocator *allocator, _Outptr_ char **ptr);
+
+    /** \brief Release an ::OrtCUDAProviderOptionsV2
+     *
+     * \note This is an exception in the naming convention of other Release* functions, as the name of the method does not have the V2 suffix, but the type does
+     *
+     * \since Version 1.11.
+     */
+    void(ORT_API_CALL *ReleaseCUDAProviderOptions)(_Frees_ptr_opt_ OrtCUDAProviderOptionsV2 *input);
+
+    /// @}
+
+    /** \brief Append MIGraphX provider to session options
+     *
+     * If MIGraphX is not available (due to a non MIGraphX enabled build, or if MIGraphX is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] migraphx_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.11.
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_MIGraphX,
+                    _In_ OrtSessionOptions *options, _In_ const OrtMIGraphXProviderOptions *migraphx_options);
+
+    /** \brief Replace initialized Tensors with external data with the data provided in initializers.
+     *
+     * The function will find the initialized TensorProtos with external data in the graph with the provided names and
+     * replace them with the provided tensors. The API verifies that the TensorProto being replaced
+     * has an external data reference and has the same name, dimensions and data type as its replacement. The replacement
+     * will occur before any of the optimizations take place. The data will be copied into the graph
+     * since TensorProto can't refer to the user provided buffers.
+     *
+     * Once the model has been loaded, the OrtValue(s) added to SessionOptions instance will be removed
+     * from the internal SessionOptions copy to save memory, the user provided buffers can then be deallocated
+     * and the SessionOptions instance that refers to them can be destroyed.
+     *
+     * \param[in] options
+     * \param[in] initializer_names Array of null terminated UTF-8 encoded strings of the initializers names.
+     * \param[in] initializers Array of ::OrtValue type
+     * \param[in] num_initializers Number of elements in the initializer_names and initializers
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(AddExternalInitializers, _In_ OrtSessionOptions *options,
+                    _In_reads_(num_initializers) const char *const *initializer_names,
+                    _In_reads_(num_initializers) const OrtValue *const *initializers, size_t num_initializers);
+
+    /** \brief: Create attribute of onnxruntime operator
+     *
+     * \param[in] name Name of the attribute
+     * \param[in] data Data content of the attribute
+     * \param[in] len Number of bytes stored in data
+     * \param[in] type Data type
+     * \param[out] op_attr Attribute that has been created, which must be released by OrtApi::ReleaseOpAttr
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(CreateOpAttr,
+                    _In_ const char *name,
+                    _In_ const void *data,
+                    _In_ int len,
+                    _In_ OrtOpAttrType type,
+                    _Outptr_ OrtOpAttr **op_attr);
+
+    /* \brief: Release op attribute
+     *
+     * \param[in] opAttr Attribute created by OrtApi::CreateOpAttr
+     *
+     * \since Version 1.12.
+     */
+    ORT_CLASS_RELEASE(OpAttr);
+
+    /** \brief: Create onnxruntime native operator
+     *
+     * \param[in] info Kernel info
+     * \param[in] op_name Operator name
+     * \param[in] domain Operator domain
+     * \param[in] version Operator opset version
+     * \param[in] type_constraint_names Name of the type contraints, such as "T" or "T1"
+     * \param[in] type_constraint_values Type of each contraints
+     * \param[in] type_constraint_count Number of contraints
+     * \param[in] attr_values Attributes used to initialize the operator
+     * \param[in] attr_count Number of the attributes
+     * \param[in] input_count Number of inputs
+     * \param[in] output_count Number of outputs
+     * \param[out] ort_op Operator that has been created
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(CreateOp,
+                    _In_ const OrtKernelInfo *info,
+                    _In_z_ const char *op_name,
+                    _In_z_ const char *domain,
+                    int version,
+                    _In_reads_(type_constraint_count) const char **type_constraint_names,
+                    _In_reads_(type_constraint_count) const ONNXTensorElementDataType *type_constraint_values,
+                    int type_constraint_count,
+                    _In_reads_(attr_count) const OrtOpAttr *const *attr_values,
+                    int attr_count,
+                    int input_count,
+                    int output_count,
+                    _Outptr_ OrtOp **ort_op);
+
+    /** \brief: Invoke the operator created by OrtApi::CreateOp
+     * The inputs must follow the order as specified in onnx specification
+     *
+     * \param[in] context Kernel context
+     * \param[in] ort_op Operator that has been created
+     * \param[in] input_values Array of inputs
+     * \param[in] input_count Number of inputs
+     * \param[in] output_values Array of outputs
+     * \param[in] output_count Number of outputs
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(InvokeOp,
+                    _In_ const OrtKernelContext *context,
+                    _In_ const OrtOp *ort_op,
+                    _In_ const OrtValue *const *input_values,
+                    _In_ int input_count,
+                    _Inout_ OrtValue *const *output_values,
+                    _In_ int output_count);
+
+    /* \brief: Release an onnxruntime operator
+     *
+     * \param[in] Op Operator created by OrtApi::CreateOp
+     *
+     * \since Version 1.12.
+     */
+    ORT_CLASS_RELEASE(Op);
+
+    /** \brief: Append execution provider to the session options.
+     * \param[in] options
+     * \param[in] provider_name - provider to add.
+     * \param[in] provider_options_keys - keys to configure the provider options
+     * \param[in] provider_options_values - values to configure the provider options
+     * \param[in] num_keys - number of keys passed in
+     *
+     * Currently supported providers:
+     *   QNN
+     *   SNPE
+     *   XNNPACK
+     *
+     * Note: If an execution provider has a dedicated SessionOptionsAppendExecutionProvider_<provider name> function
+     *       that should be used to add it.
+     *
+     * QNN supported keys:
+     *   "backend_path": file path to QNN backend library.
+     *   "profiling_level": QNN profiling level, options: "off", "basic", "detailed". Default to off.
+     *   "profiling_file_path": QNN profiling file path if ETW not enabled.
+     *   "rpc_control_latency": QNN RPC control latency.
+     *   "vtcm_mb": QNN VTCM size in MB. default to 0(not set).
+     *   "htp_performance_mode": QNN performance mode, options: "burst", "balanced", "default", "high_performance",
+     *   "high_power_saver", "low_balanced", "extreme_power_saver", "low_power_saver", "power_saver", "sustained_high_performance". Default to "default".
+     *   "qnn_saver_path": File path to the QNN Saver backend library. If specified, QNN Saver will be enabled and will
+     *   dump QNN API calls to disk for replay/debugging. QNN Saver produces incorrect model inference results and
+     *   may alter model/EP partitioning. Use only for debugging.
+     *   "qnn_context_priority": QNN context priority, options: "low", "normal", "normal_high", "high". Default to "normal".
+     *   "htp_graph_finalization_optimization_mode": Set the optimization mode for graph finalization on the HTP backend. Available options:
+     *     - "0": Default.
+     *     - "1": Faster preparation time, less optimal graph.
+     *     - "2": Longer preparation time, more optimal graph.
+     *     - "3": Longest preparation time, most likely even more optimal graph. See QNN SDK documentation for specific details.
+     *   "soc_model": The SoC model number. Refer to the QNN SDK documentation for valid values. Defaults to "0" (unknown).
+     *   "htp_arch": The minimum HTP architecture the driver will use to select compatible QNN operators. Available options:
+     *     - "0": Default (none).
+     *     - "68"
+     *     - "69"
+     *     - "73"
+     *     - "75"
+     *   "device_id": The ID of the device to use when setting 'htp_arch'. Defaults to "0" (for single device).
+     *   "enable_htp_fp16_precision": Used for float32 model for HTP backend.
+     *   Enable the float32 model to be inferenced with fp16 precision. Otherwise, it will be fp32 precision.
+     *     - "0": With fp32 precision.
+     *     - "1": Default. With fp16 precision.
+     *   "enable_htp_weight_sharing": Enable QNN weight sharing feature while compiling multiple graphs into one QNN context.
+     *     - "0": Default. Disabled.
+     *     - "1": Enabled.
+     *   "offload_graph_io_quantization": Offload graph input quantization and graph output dequantization to another
+     *   execution provider (typically CPU EP).
+     *     - "0": Default. Disabled. QNN EP will handle quantization and dequantization of graph I/O.
+     *     - "1": Enabled.
+     *
+     * SNPE supported keys:
+     *   "runtime": SNPE runtime engine, options: "CPU", "CPU_FLOAT32", "GPU", "GPU_FLOAT32_16_HYBRID", "GPU_FLOAT16",
+     *   "DSP", "DSP_FIXED8_TF", "AIP_FIXED_TF", "AIP_FIXED8_TF".
+     *   Mapping to SNPE Runtime_t definition: CPU, CPU_FLOAT32 => zdl::DlSystem::Runtime_t::CPU;
+     *   GPU, GPU_FLOAT32_16_HYBRID => zdl::DlSystem::Runtime_t::GPU;
+     *   GPU_FLOAT16 => zdl::DlSystem::Runtime_t::GPU_FLOAT16;
+     *   DSP, DSP_FIXED8_TF => zdl::DlSystem::Runtime_t::DSP.
+     *   AIP_FIXED_TF, AIP_FIXED8_TF => zdl::DlSystem::Runtime_t::AIP_FIXED_TF.
+     *   "priority": execution priority, options: "low", "normal".
+     *   "buffer_type": ITensor or user buffers, options: "ITENSOR", user buffer with different types - "TF8", "TF16", "UINT8", "FLOAT".
+     *   "ITENSOR" -- default, ITensor which is float only.
+     *   "TF8" -- quantized model required, "FLOAT" -- for both quantized or non-quantized model
+     *   "enable_init_cache": enable SNPE init caching feature, set to 1 to enabled it. Disabled by default.
+     *   If SNPE is not available (due to a non Snpe enabled build or its dependencies not being installed), this function will fail.
+     *
+     * XNNPACK supported keys:
+     *   "intra_op_num_threads": number of thread-pool size to use for XNNPACK execution provider.
+     *      default value is 0, which means to use the session thread-pool size.
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider, _In_ OrtSessionOptions *options,
+                    _In_ const char *provider_name,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /* \brief: Get a copy of kernel info
+     *
+     * \param[in] info Kernel info
+     * \param[out] info_copy Copy of kernel info
+     *
+     * \since Version 1.12.
+     */
+    ORT_API2_STATUS(CopyKernelInfo,
+                    _In_ const OrtKernelInfo *info,
+                    _Outptr_ OrtKernelInfo **info_copy);
+
+    /* \brief: Release kernel info
+     *
+     * \param[in] KernelInfo A copy of kernel info returned by CopyKernelInfo
+     *
+     * \since Version 1.12.
+     */
+    ORT_CLASS_RELEASE(KernelInfo);
+
+    /// \name Ort Training
+    /// @{
+    /** \brief Gets the Training C Api struct
+     *
+     * Call this function to access the ::OrtTrainingApi structure that holds pointers to functions that enable
+     * training with onnxruntime.
+     * \note A NULL pointer will be returned and no error message will be printed if the training api
+     * is not supported with this build. A NULL pointer will be returned and an error message will be
+     * printed if the provided version is unsupported, for example when using a runtime older than the
+     * version created with this header file.
+     *
+     * \param[in] version Must be ::ORT_API_VERSION
+     * \return The ::OrtTrainingApi struct for the version requested.
+     *
+     * \since Version 1.13
+     */
+    const OrtTrainingApi *(ORT_API_CALL *GetTrainingApi)(uint32_t version)NO_EXCEPTION;
+
+    /// @}
+
+    /** \brief Append CANN provider to session options
+     *
+     * If CANN is not available (due to a non CANN enabled build, or if CANN is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] cann_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.13.
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_CANN,
+                    _In_ OrtSessionOptions *options, _In_ const OrtCANNProviderOptions *cann_options);
+
+    /** \brief Create an OrtCANNProviderOptions
+     *
+     * \param[out] out created ::OrtCANNProviderOptions. Must be released with OrtApi::ReleaseCANNProviderOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.13.
+     */
+    ORT_API2_STATUS(CreateCANNProviderOptions, _Outptr_ OrtCANNProviderOptions **out);
+
+    /** \brief Set options in a CANN Execution Provider.
+     *
+     * \param[in] cann_options
+     * \param[in] provider_options_keys Array of UTF-8 null-terminated string for provider options keys
+     * \param[in] provider_options_values Array of UTF-8 null-terminated string for provider options values
+     * \param[in] num_keys Number of elements in the `provider_option_keys` and `provider_options_values` arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.13.
+     */
+    ORT_API2_STATUS(UpdateCANNProviderOptions, _Inout_ OrtCANNProviderOptions *cann_options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /** \brief Get serialized CANN provider options string.
+     *
+     * \param[in] cann_options OrtCANNProviderOptions instance
+     * \param[in] allocator a ptr to an instance of OrtAllocator obtained with CreateAllocator()
+     *                      or GetAllocatorWithDefaultOptions(), the specified allocator will be used to allocate
+     *                      continuous buffers for output strings and lengths.
+     * \param[out] ptr is a UTF-8 null terminated string allocated using 'allocator'.
+     *                 The caller is responsible for using the same allocator to free it.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.13.
+     */
+    ORT_API2_STATUS(GetCANNProviderOptionsAsString, _In_ const OrtCANNProviderOptions *cann_options,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ char **ptr);
+
+    /** \brief Release an OrtCANNProviderOptions
+     *
+     * \param[in] input The pointer of OrtCANNProviderOptions which will been deleted
+     *
+     * \since Version 1.13.
+     */
+    void(ORT_API_CALL *ReleaseCANNProviderOptions)(_Frees_ptr_opt_ OrtCANNProviderOptions *input);
+
+    /*  \brief Get OrtDevice type from MemoryInfo
+     *
+     *  \since Version 1.14
+     */
+    void(ORT_API_CALL *MemoryInfoGetDeviceType)(_In_ const OrtMemoryInfo *ptr, _Out_ OrtMemoryInfoDeviceType *out);
+
+    /* \brief Update the OrtEnv instance with custom log severity level
+     *
+     * \param[in] ort_env The OrtEnv instance being used
+     * \param[in] log_severity_level The log severity level.
+     *
+     * \since Version 1.14.
+     */
+    ORT_API2_STATUS(UpdateEnvWithCustomLogLevel, _In_ OrtEnv *ort_env, OrtLoggingLevel log_severity_level);
+
+    /*  \brief Set affinities for intra op threads
+     *
+     * Affinity string follows format:
+     * logical_processor_id,logical_processor_id;logical_processor_id,logical_processor_id
+     * Semicolon isolates configurations among threads, while comma split processors where ith thread expected to attach to.
+     * e.g. 1,2,3;4,5
+     * specifies affinities for two threads, with the 1st thread attach to the 1st, 2nd, and 3rd processor, and 2nd thread to the 4th and 5th.
+     * To ease the configuration, an "interval" is also allowed:
+     * e.g. 1-8;8-16;17-24
+     * orders that the 1st thread runs on first eight processors, 2nd thread runs on next eight processors, and so forth.
+     * Note:
+     * 1. Once set, the number of thread affinities must equal to intra_op_num_threads - 1,
+     *    ort does not set affinity on the main thread which is started and managed by the calling app;
+     * 2. For windows, ort will infer the group id from a logical processor id, for example, assuming there are two groups with each has 64 logical processors,
+     *    an id of 64 will be inferred as the last processor of the 1st group, while 65 will be interpreted as the 1st processor of the second group.
+     *    Hence 64-65 is an invalid configuration, because a windows thread cannot be attached to processors across group boundary.
+     *
+     *  \since Version 1.14
+     */
+    ORT_API2_STATUS(SetGlobalIntraOpThreadAffinity, _Inout_ OrtThreadingOptions *tp_options, const char *affinity_string);
+
+    /** \brief Register custom ops from a shared library.
+     *
+     * Loads a shared library (.dll on windows, .so on linux, etc) named 'library_name' and looks for this entry point:
+     *		OrtStatus* RegisterCustomOps(OrtSessionOptions * options, const OrtApiBase* api);
+     * It then passes in the provided session options to this function along with the api base.
+     *
+     * The handle to the loaded library is automatically released by ORT when the last OrtSession that references the
+     * library handle is released. If no OrtSession is created, then the library handle is released when the provided
+     * OrtSessionOptions is released.
+     *
+     * \param[in] options The session options.
+     * \param[in] library_name The name of the shared library to load and register. Refer to OS-specific dynamic library
+     *                         loading utilities (e.g., LoadLibraryEx on Windows or dlopen on Linux/MacOS) for information
+     *                         on the format of library names and search paths.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(RegisterCustomOpsLibrary_V2, _Inout_ OrtSessionOptions *options, _In_ const ORTCHAR_T *library_name);
+
+    /** \brief Register custom ops by calling a RegisterCustomOpsFn function.
+     *
+     * Searches for registration_func_name and if found calls it.
+     *
+     * The library containing the function must either be linked against or previously loaded by the executable.
+     *
+     * If you want ONNX Runtime to load the library and manage its lifetime, use RegisterCustomOpsLibrary_V2.
+     *
+     * RegisterCustomOpsUsingFunction can be used in scenarios where it may not be possible for ONNX Runtime to load
+     * the library from a path. e.g. mobile platforms where the library must be linked into the app.
+     *
+     * The registration function must have the signature of RegisterCustomOpsFn:
+     *    OrtStatus* (*fn)(OrtSessionOptions* options, const OrtApiBase* api);
+     *
+     * See https://onnxruntime.ai/docs/reference/operators/add-custom-op.html for details on how the registration
+     * function should be implemented.
+     *
+     * \param[in] options OrtSessionOptions that is passed through as the first argument in the call to the
+     *                    registration function.
+     * \param[in] registration_func_name Name of registration function to use.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(RegisterCustomOpsUsingFunction, _Inout_ OrtSessionOptions *options,
+                    _In_ const char *registration_func_name);
+
+    /// \name OrtKernelInfo
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Get the number of inputs from ::OrtKernelInfo.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query the number of inputs
+     * during kernel/session creation.
+     *
+     * \param[in] info Instance of ::OrtKernelInfo.
+     * \param[out] out Pointer to variable assigned with the result on success.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetInputCount, _In_ const OrtKernelInfo *info, _Out_ size_t *out);
+
+    /** \brief Get the number of outputs from ::OrtKernelInfo.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query the number of outputs
+     * during kernel/session creation.
+     *
+     * \param[in] info Instance of ::OrtKernelInfo.
+     * \param[out] out Pointer to variable assigned with the result on success.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetOutputCount, _In_ const OrtKernelInfo *info, _Out_ size_t *out);
+
+    /** \brief Get the name of a ::OrtKernelInfo's input.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query an input's name
+     * during kernel/session creation.
+     *
+     * If `out` is nullptr, the value of `size` is set to the size of the name
+     * string (including null-terminator), and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the name string's size,
+     * the value of `size` is set to the true size of the string (including null-terminator),
+     * the provided memory is filled with the string's contents, and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual string's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the string
+     * and a failure status is returned.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[in] index The index of the input name to get. Returns a failure status if out-of-bounds.
+     * \param[out] out Memory location into which to write the UTF-8 null-terminated string representing the input's name.
+     * \param[in,out] size Pointer to the size of the `out` buffer. See above comments for details.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetInputName, _In_ const OrtKernelInfo *info, size_t index, _Out_ char *out,
+                    _Inout_ size_t *size);
+
+    /** \brief Get the name of a ::OrtKernelInfo's output.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query an output's name
+     * during kernel/session creation.
+     *
+     * If `out` is nullptr, the value of `size` is set to the size of the name
+     * string (including null-terminator), and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the name string's size,
+     * the value of `size` is set to the true size of the string (including null-terminator),
+     * the provided memory is filled with the string's contents, and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual string's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the string
+     * and a failure status is returned.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[in] index The index of the output name to get. Returns a failure status if out-of-bounds.
+     * \param[out] out Memory location into which to write the UTF-8 null-terminated string representing the output's
+     *                 name.
+     * \param[in,out] size Pointer to the size of the `out` buffer. See above comments for details.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetOutputName, _In_ const OrtKernelInfo *info, size_t index, _Out_ char *out,
+                    _Inout_ size_t *size);
+
+    /** \brief Get the type information for a ::OrtKernelInfo's input.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query the shape and type information
+     * of an input during kernel/session creation.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[in] index Which input to get the type information for
+     * \param[out] type_info Pointer set to the resulting ::OrtTypeInfo. Must be freed with OrtApi::ReleaseTypeInfo.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetInputTypeInfo, _In_ const OrtKernelInfo *info, size_t index,
+                    _Outptr_ OrtTypeInfo **type_info);
+
+    /** \brief Get the type information for a ::OrtKernelInfo's output.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to query the shape and type information
+     * of an output during kernel/session creation.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[in] index Which input to get the type information for
+     * \param[out] type_info Pointer set to the resulting ::OrtTypeInfo. Must be freed with OrtApi::ReleaseTypeInfo.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(KernelInfo_GetOutputTypeInfo, _In_ const OrtKernelInfo *info, size_t index,
+                    _Outptr_ OrtTypeInfo **type_info);
+
+    /** \brief Get a ::OrtValue tensor stored as an attribute in the graph node.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to get a tensor attribute.
+     *
+     * \param[in] info ::OrtKernelInfo instance.
+     * \param[in] name UTF-8 null-terminated string representing the attribute's name.
+     * \param[in] allocator Allocator used to allocate the internal tensor state.
+     * \param[out] out Returns newly created ::OrtValue. Must be freed with OrtApi::ReleaseValue,
+     *                 which will also free internal tensor state allocated with the provided allocator.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAttribute_tensor, _In_ const OrtKernelInfo *info, _In_z_ const char *name,
+                    _Inout_ OrtAllocator *allocator, _Outptr_ OrtValue **out);
+
+    /// @}
+    /// \name OrtSessionOptions
+    /// Custom operator APIs
+    /// @{
+
+    /** \brief Checks if the given session configuration entry exists.
+     *
+     * The config_key formats are defined in onnxruntime_session_options_config_keys.h
+     *
+     * Can be used in a custom operator library to check for session configuration entries
+     * that target one or more custom operators in the library. Example: The config entry
+     * custom_op.myop.some_key targets a custom op named "myop".
+     *
+     * \param[in] options The ::OrtSessionOptions instance.
+     * \param[in] config_key A null-terminated UTF-8 string representation of the configuration key.
+     * \param[out] out Pointer set to 1 if the entry exists and 0 otherwise.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(HasSessionConfigEntry, _In_ const OrtSessionOptions *options,
+                    _In_z_ const char *config_key, _Out_ int *out);
+
+    /** \brief Get a session configuration value.
+     *
+     * Returns a failure status if the configuration key does not exist.
+     * The config_key and the format of config_value are defined in onnxruntime_session_options_config_keys.h
+     *
+     * If `config_value` is nullptr, the value of `size` is set to the true size of the string
+     * value (including null-terminator), and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the actual string value's size,
+     * the value of `size` is set to the true size of the string value, the provided memory
+     * is filled with the value's contents, and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual string value's size and `config_value`
+     * is not nullptr, the value of `size` is set to the true size of the string value
+     * and a failure status is returned.
+     *
+     * Can be used in a custom operator library to get session configuration entries
+     * that target one or more custom operators in the library. Example: The config entry
+     * custom_op.myop.some_key targets a custom op named "myop".
+     *
+     * \param[in] options The session options.
+     * \param[in] config_key A null-terminated UTF-8 string representation of the config key.
+     * \param[in] config_value Pointer to memory where the null-terminated UTF-8 string value will be stored.
+     * \param[in,out] size Pointer to the size of the `config_value` buffer. See above comments for details.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.14
+     */
+    ORT_API2_STATUS(GetSessionConfigEntry, _In_ const OrtSessionOptions *options,
+                    _In_z_ const char *config_key, _Out_ char *config_value, _Inout_ size_t *size);
+
+    /// @}
+
+    /** \brief Append dnnl provider to session options
+     *
+     * If oneDNN is not available, this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] dnnl_options
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_Dnnl,
+                    _In_ OrtSessionOptions *options, _In_ const OrtDnnlProviderOptions *dnnl_options);
+
+    /** \brief Create an OrtDnnlProviderOptions
+     *
+     * \param[out] out Newly created ::OrtDnnlProviderOptions. Must be released with OrtApi::ReleaseDnnlProviderOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(CreateDnnlProviderOptions, _Outptr_ OrtDnnlProviderOptions **out);
+
+    /** \brief Set options in a oneDNN Execution Provider.
+     *
+     * Key should be in null terminated string format of the member of ::OrtDnnlProviderOptions
+     * and value should be its related range.
+     *
+     * For example, key="use_arena" and value="1"
+     *
+     * \param[in] dnnl_options
+     * \param[in] provider_options_keys Array of UTF-8 null-terminated string for provider options keys
+     * \param[in] provider_options_values Array of UTF-8 null-terminated string for provider options values
+     * \param[in] num_keys Number of elements in the `provider_option_keys` and `provider_options_values` arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(UpdateDnnlProviderOptions, _Inout_ OrtDnnlProviderOptions *dnnl_options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /**
+     * Get serialized oneDNN provider options string.
+     *
+     * For example, "use_arena=1;......"
+     *
+     * \param dnnl_options - OrtDnnlProviderOptions instance
+     * \param allocator - a ptr to an instance of OrtAllocator obtained with CreateAllocator() or GetAllocatorWithDefaultOptions()
+     *                      the specified allocator will be used to allocate continuous buffers for output strings and lengths.
+     * \param ptr - is a UTF-8 null terminated string allocated using 'allocator'. The caller is responsible for using the same allocator to free it.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(GetDnnlProviderOptionsAsString, _In_ const OrtDnnlProviderOptions *dnnl_options, _Inout_ OrtAllocator *allocator, _Outptr_ char **ptr);
+
+    /** \brief Release an ::OrtDnnlProviderOptions
+     *
+     * \since Version 1.15.
+     */
+    void(ORT_API_CALL *ReleaseDnnlProviderOptions)(_Frees_ptr_opt_ OrtDnnlProviderOptions *input);
+
+    /// \name OrtKernelInfo
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Get the graph node name from ::OrtKernelInfo.
+     *
+     * If `out` is nullptr, the value of `size` is set to the size of the name
+     * string (including null-terminator), and a success status is returned.
+     *
+     * If the `size` parameter is greater than or equal to the name string's size,
+     * the value of `size` is set to the true size of the string (including null-terminator),
+     * the provided memory is filled with the string's contents, and a success status is returned.
+     *
+     * If the `size` parameter is less than the actual string's size and `out`
+     * is not nullptr, the value of `size` is set to the true size of the string
+     * and a failure status is returned.
+     *
+     * Can be used in a custom operator's CreateKernel callback to get the name of the operator's node name in the graph.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[out] out Memory location into which to write the UTF-8 null-terminated string representing the name.
+     * \param[in,out] size Pointer to the size of the `out` buffer. See above comments for details.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.15
+     */
+    ORT_API2_STATUS(KernelInfo_GetNodeName, _In_ const OrtKernelInfo *info, _Out_ char *out, _Inout_ size_t *size);
+
+    /** \brief Get the session logger from ::OrtKernelInfo.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to get a logger that can be used to log
+     * messages.
+     *
+     * \param[in] info An instance of ::OrtKernelInfo.
+     * \param[out] logger Pointer set to the session's ::OrtLogger. Owned by ONNX Runtime, so do not free.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.15
+     */
+    ORT_API2_STATUS(KernelInfo_GetLogger, _In_ const OrtKernelInfo *info, _Outptr_ const OrtLogger **logger);
+
+    /// @}
+    /// \name OrtKernelContext
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Get the runtime logger from ::OrtKernelContext.
+     *
+     * Used in the KernelCompute callback of an OrtCustomOp to get a logger that can be used to log
+     * messages during inference.
+     *
+     * \param[in] context An instance of ::OrtKernelContext.
+     * \param[out] logger Pointer set to the kernel context's ::OrtLogger. Owned by ONNX Runtime, so do not free.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.15
+     */
+    ORT_API2_STATUS(KernelContext_GetLogger, _In_ const OrtKernelContext *context, _Outptr_ const OrtLogger **logger);
+
+    /// @}
+    /// \name OrtLogger
+    /// Custom operator APIs.
+    /// @{
+
+    /** \brief Logs a message at the given severity level using the provided ::OrtLogger.
+     *
+     * Only messages with a severity level equal or greater than the ::OrtLogger's logging severity level
+     * are logged. Use OrtApi::Logger_GetLoggingSeverityLevel to get the ::OrtLogger's logging severity
+     * level.
+     *
+     * Can be used in custom operators to log messages with the logger retrieved via OrtApi::KernelInfo_GetLogger.
+     *
+     * \param[in] logger The ::OrtLogger instance.
+     * \param[in] log_severity_level The message's severity level.
+     * \param[in] message The message to log.
+     * \param[in] file_path The filepath of the file in which the message is logged. Usually the value of ORT_FILE.
+     * \param[in] line_number The file line number in which the message is logged. Usually the value of __LINE__.
+     * \param[in] func_name The name of the function in which the message is logged. Usually the value of __FUNCTION__.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.15
+     */
+    ORT_API2_STATUS(Logger_LogMessage, _In_ const OrtLogger *logger, OrtLoggingLevel log_severity_level,
+                    _In_z_ const char *message, _In_z_ const ORTCHAR_T *file_path, int line_number,
+                    _In_z_ const char *func_name);
+
+    /** \brief Get the logging severity level of the ::OrtLogger.
+     *
+     * Can be used in a custom operator to get the logging serverity level of the ::OrtLogger associated with
+     * the ::OrtKernelInfo.
+     *
+     * \param[in] logger The ::OrtLogger instance.
+     * \param[out] out Pointer to variable assigned with the logging severity level on success.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     * \since Version 1.15
+     */
+    ORT_API2_STATUS(Logger_GetLoggingSeverityLevel, _In_ const OrtLogger *logger, _Out_ OrtLoggingLevel *out);
+
+    /// @}
+
+    /** \brief Get a ::OrtValue tensor stored as a constant initializer in the graph node.
+     *
+     * Used in the CreateKernel callback of an OrtCustomOp to get a tensor value.
+     *
+     * \param[in] info ::OrtKernelInfo instance.
+     * \param[in] index The node index.
+     * \param[out] is_constant Is it a constant node input or not.
+     * \param[out] out The OrtValue tensor value.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(KernelInfoGetConstantInput_tensor, _In_ const OrtKernelInfo *info, size_t index, _Out_ int *is_constant, _Outptr_ const OrtValue **out);
+
+    /** \brief Get Optional Type information from an ::OrtTypeInfo
+     *
+     * This augments ::OrtTypeInfo to return an ::OrtOptionalTypeInfo when the type is optional.
+     * The OrtOptionalTypeInfo also has a nested ::OrtTypeInfo that describes the type of the optional value.
+     * ::OrtOptionalTypeInfo type can only appear within model metadata to describe inputs/outputs.
+     * The actual OrtValues that are supplied in place of optional type inputs should contain
+     * specific type that is described by ::OrtOptionalTypeInfo.
+     *
+     * So the picture: ::OrtTypeInfo -> ::OrtOptionalTypeInfo -> ::OrtTypeInfo (describes the type that can be supplied
+     * in place of the optional type when creating the actual ::OrtValue).
+     *
+     * \param[in] type_info
+     * \param[out] out A pointer to the ::OrtOptionalTypeInfo. Do not free this value,
+     *                 it is owned by OrtTypeInfo instance. When the type_info does not represent
+     *                 optional type, nullptr is returned in out.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(CastTypeInfoToOptionalTypeInfo, _In_ const OrtTypeInfo *type_info,
+                    _Outptr_result_maybenull_ const OrtOptionalTypeInfo **out);
+
+    /** \brief Get OrtTypeInfo for the allowed contained type from an ::OrtOptionalTypeInfo.
+     *
+     * This augments ::OrtOptionalTypeInfo to return an ::OrtTypeInfo for the contained type.
+     * The OrtOptionalTypeInfo has a nested ::OrtTypeInfo that describes the type of the optional value.
+     * ::OrtOptionalTypeInfo type can only appear within model metadata to describe inputs/outputs.
+     * The actual OrtValues that are supplied in place of optional type inputs should contain
+     * specific type that is described by the returned ::OrtTypeInfo.
+     *
+     * \param[in] optional_type_info
+     * \param[out] out A pointer to the ::OrtTypeInfo for what the optional value could be.
+     * it is owned by OrtOptionalTypeInfo instance.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(GetOptionalContainedTypeInfo, _In_ const OrtOptionalTypeInfo *optional_type_info,
+                    _Outptr_ OrtTypeInfo **out);
+
+    /** \brief Set a single string in a string tensor
+     *  Do not zero terminate the string data.
+     *
+     * \param[in] value A string tensor
+     * \param[in] index - flat index of the element
+     * \param[in] length_in_bytes length of the buffer in utf-8 bytes (without the null terminator)
+     * \param[inout] buffer - address of return value
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(GetResizedStringTensorElementBuffer, _Inout_ OrtValue *value, _In_ size_t index, _In_ size_t length_in_bytes, _Inout_ char **buffer);
+
+    /** \brief Get Allocator from KernelContext for a specific memoryInfo. Please use C API ReleaseAllocator to release out object
+     *
+     * \param[in] context OrtKernelContext instance
+     * \param[in] mem_info OrtMemoryInfo instance
+     * \param[out] out A pointer to OrtAllocator.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.15.
+     */
+    ORT_API2_STATUS(KernelContext_GetAllocator, _In_ const OrtKernelContext *context, _In_ const OrtMemoryInfo *mem_info, _Outptr_ OrtAllocator **out);
+
+    /** \brief Returns a null terminated string of the build info including git info and cxx flags
+     *
+     * \return UTF-8 encoded version string. Do not deallocate the returned buffer.
+     *
+     * \since Version 1.15.
+     */
+    const char *(ORT_API_CALL *GetBuildInfoString)(void);
+
+    /// \name OrtROCMProviderOptions
+    /// @{
+
+    /** \brief Create an OrtROCMProviderOptions
+     *
+     * \param[out] out Newly created ::OrtROCMProviderOptions. Must be released with OrtApi::ReleaseROCMProviderOptions
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(CreateROCMProviderOptions, _Outptr_ OrtROCMProviderOptions **out);
+
+    /** \brief Set options in a ROCm Execution Provider.
+     *
+     * Please refer to https://onnxruntime.ai/docs/execution-providers/ROCm-ExecutionProvider.html
+     * to know the available keys and values. Key should be in null terminated string format of the member of
+     * ::OrtROCMProviderOptions and value should be its related range.
+     *
+     * For example, key="device_id" and value="0"
+     *
+     * \param[in] rocm_options
+     * \param[in] provider_options_keys Array of UTF-8 null-terminated string for provider options keys
+     * \param[in] provider_options_values Array of UTF-8 null-terminated string for provider options values
+     * \param[in] num_keys Number of elements in the `provider_option_keys` and `provider_options_values` arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(UpdateROCMProviderOptions, _Inout_ OrtROCMProviderOptions *rocm_options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /**
+     * Get serialized ROCm provider options string.
+     *
+     * For example, "device_id=0;arena_extend_strategy=0;......"
+     *
+     * \param rocm_options - OrtROCMProviderOptions instance
+     * \param allocator - a ptr to an instance of OrtAllocator obtained with CreateAllocator() or GetAllocatorWithDefaultOptions()
+     *                      the specified allocator will be used to allocate continuous buffers for output strings and lengths.
+     * \param ptr - is a UTF-8 null terminated string allocated using 'allocator'. The caller is responsible for using the same allocator to free it.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(GetROCMProviderOptionsAsString, _In_ const OrtROCMProviderOptions *rocm_options, _Inout_ OrtAllocator *allocator, _Outptr_ char **ptr);
+
+    /** \brief Release an ::OrtROCMProviderOptions
+     *
+     * \note This is an exception in the naming convention of other Release* functions, as the name of the method does not have the V2 suffix, but the type does
+     *
+     * \since Version 1.16.
+     */
+    void(ORT_API_CALL *ReleaseROCMProviderOptions)(_Frees_ptr_opt_ OrtROCMProviderOptions *input);
+
+    /** \brief Create an allocator with specific type and register it with the ::OrtEnv
+     *  This API enhance CreateAndRegisterAllocator that it can create an allocator with specific type, not just CPU allocator
+     *  Enables sharing the allocator between multiple sessions that use the same env instance.
+     *  Lifetime of the created allocator will be valid for the duration of the environment.
+     *  Returns an error if an allocator with the same ::OrtMemoryInfo is already registered.
+     *  \param[in] env OrtEnv instance
+     *  \param[in] provider_type ExecutionProvider type
+     *  \param[in] mem_info OrtMemoryInfo instance
+     *  \param[in] arena_cfg Arena configuration
+     *  \param[in] provider_options_keys key of the provider options map
+     *  \param[in] provider_options_values value of the provider options map
+     *  \param[in] num_keys Length of the provider options map
+     */
+    ORT_API2_STATUS(CreateAndRegisterAllocatorV2, _Inout_ OrtEnv *env, _In_ const char *provider_type, _In_ const OrtMemoryInfo *mem_info, _In_ const OrtArenaCfg *arena_cfg,
+                    _In_reads_(num_keys) const char *const *provider_options_keys, _In_reads_(num_keys) const char *const *provider_options_values, _In_ size_t num_keys);
+
+    /** \brief Run the model asynchronously in a thread owned by intra op thread pool
+     *
+     * \param[in] session
+     * \param[in] run_options If nullptr, will use a default ::OrtRunOptions
+     * \param[in] input_names Array of null terminated UTF8 encoded strings of the input names
+     * \param[in] input Array of ::OrtValue%s of the input values
+     * \param[in] input_len Number of elements in the input_names and inputs arrays
+     * \param[in] output_names Array of null terminated UTF8 encoded strings of the output names
+     * \param[in] output_names_len Number of elements in the output_names and outputs array
+     * \param[out] output OrtValue* array of size output_names_len.
+     *             On calling RunAsync, output[i] could either be a null or a pointer to a preallocated OrtValue.
+     *             Later, the output array will be passed to run_async_callback with all null(s) filled with valid
+     *             OrtValue pointer(s) allocated by onnxruntime.
+     *             NOTE: it is customer's duty to finally release the output array and each of its member,
+     *             regardless of whether the member (OrtValue*) is allocated by onnxruntime or preallocated by the customer.
+     * \param[in] run_async_callback Callback function on model run completion
+     * \param[in] user_data User data that pass back to run_async_callback
+     */
+    ORT_API2_STATUS(RunAsync, _Inout_ OrtSession *session, _In_opt_ const OrtRunOptions *run_options,
+                    _In_reads_(input_len) const char *const *input_names,
+                    _In_reads_(input_len) const OrtValue *const *input, size_t input_len,
+                    _In_reads_(output_names_len) const char *const *output_names, size_t output_names_len,
+                    _Inout_updates_all_(output_names_len) OrtValue **output,
+                    _In_ RunAsyncCallbackFn run_async_callback, _In_opt_ void *user_data);
+
+    /**
+     * Update TensorRT EP provider option where its data type is pointer, for example 'user_compute_stream'.
+     * If the data type of the provider option can be represented by string please use UpdateTensorRTProviderOptions.
+     *
+     * Note: It's caller's responsibility to properly manage the lifetime of the instance pointed by this pointer.
+     *
+     * \param tensorrt_options - OrtTensorRTProviderOptionsV2 instance
+     * \param key - Name of the provider option
+     * \param value - A pointer to the instance that will be assigned to this provider option
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(UpdateTensorRTProviderOptionsWithValue, _Inout_ OrtTensorRTProviderOptionsV2 *tensorrt_options, _In_ const char *key, _In_ void *value);
+
+    /**
+     * Get TensorRT EP provider option where its data type is pointer.
+     * If the data type of the provider option can be represented by string please use GetTensorRTProviderOptionsAsString.
+     *
+     * \param tensorrt_options - OrtTensorRTProviderOptionsV2 instance
+     * \param key - Name of the provider option
+     * \param ptr - A pointer to the instance that is kept by the provider option
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(GetTensorRTProviderOptionsByName, _In_ const OrtTensorRTProviderOptionsV2 *tensorrt_options, _In_ const char *key, _Outptr_ void **ptr);
+
+    /**
+     * Update CUDA EP provider option where its data type is pointer, for example 'user_compute_stream'.
+     * If the data type of the provider option can be represented by string please use UpdateCUDAProviderOptions.
+     *
+     * Note: It's caller's responsibility to properly manage the lifetime of the instance pointed by this pointer.
+     *
+     * \param cuda_options - OrtCUDAProviderOptionsV2 instance
+     * \param key - Name of the provider option
+     * \param value - A pointer to the instance that will be assigned to this provider option
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(UpdateCUDAProviderOptionsWithValue, _Inout_ OrtCUDAProviderOptionsV2 *cuda_options, _In_ const char *key, _In_ void *value);
+
+    /**
+     * Get CUDA EP provider option where its data type is pointer.
+     * If the data type of the provider option can be represented by string please use GetCUDAProviderOptionsAsString.
+     *
+     * \param cuda_options - OrtCUDAProviderOptionsV2 instance
+     * \param key - Name of the provider option
+     * \param ptr - A pointer to the instance that is kept by the provider option
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(GetCUDAProviderOptionsByName, _In_ const OrtCUDAProviderOptionsV2 *cuda_options, _In_ const char *key, _Outptr_ void **ptr);
+
+    /**
+     * Get a EP resource.
+     * E.g. a cuda stream or a cublas handle
+     *
+     * \param context - Kernel context
+     * \param resource_version - Version of the resource
+     * \param resource_id - Type of resource
+     * \param resource - A pointer to returned resource
+     *
+     * \since Version 1.16.
+     */
+    ORT_API2_STATUS(KernelContext_GetResource, _In_ const OrtKernelContext *context, _In_ int resource_version,
+                    _In_ int resource_id, _Outptr_ void **resource);
+
+    /** \brief Set user logging function
+     *
+     *  By default the logger created by the CreateEnv* functions is used to create the session logger as well.
+     *  This function allows a user to override this default session logger with a logger of their own choosing. This way
+     *  the user doesn't have to create a separate environment with a custom logger. This addresses the problem when
+     *  the user already created an env but now wants to use a different logger for a specific session (for debugging or
+     *  other reasons).
+     *
+     * \param[in] options
+     * \param[in] user_logging_function A pointer to a logging function.
+     * \param[in] user_logging_param A pointer to arbitrary data passed as the ::OrtLoggingFunction `param` parameter to
+     *                         `user_logging_function`. This parameter is optional.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(SetUserLoggingFunction, _Inout_ OrtSessionOptions *options,
+                    _In_ OrtLoggingFunction user_logging_function, _In_opt_ void *user_logging_param);
+
+    /**
+     * Get number of input from OrtShapeInferContext
+     *
+     * \param[in] context
+     * \param[out] out The number of inputs
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(ShapeInferContext_GetInputCount, _In_ const OrtShapeInferContext *context, _Out_ size_t *out);
+
+    /**
+     * Get type and shape info of an input
+     *
+     * \param[in] context
+     * \param[in] index The index of the input
+     * \param[out] info Type shape info of the input
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(ShapeInferContext_GetInputTypeShape, _In_ const OrtShapeInferContext *context, _In_ size_t index, _Outptr_ OrtTensorTypeAndShapeInfo **info);
+
+    /**
+     * Get attribute from OrtShapeInferContext. Note that OrtShapeInferContext is a per-node context, one could only read attribute from current node.
+     *
+     * \param[in] context
+     * \param[in] attr_name Name of the attribute
+     * \param[out] attr Handle of the attribute fetched
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(ShapeInferContext_GetAttribute, _In_ const OrtShapeInferContext *context, _In_ const char *attr_name, _Outptr_ const OrtOpAttr **attr);
+
+    /**
+     * Set type and shape info of an output
+     *
+     * \param[in] context
+     * \param[in] index The index of the output
+     * \param[out] info Type shape info of the output
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(ShapeInferContext_SetOutputTypeShape, _In_ const OrtShapeInferContext *context, _In_ size_t index, _In_ const OrtTensorTypeAndShapeInfo *info);
+
+    /**
+     * Set symbolic shape to type shape info
+     *
+     * \param[in] info Type shape info
+     * \param[in] dim_params Symbolic strings
+     * \param[in] dim_params_length Number of strings
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(SetSymbolicDimensions, _In_ OrtTensorTypeAndShapeInfo *info, _In_ const char *dim_params[], _In_ size_t dim_params_length);
+
+    /**
+     * Read contents of an attribute to data
+     *
+     * \param[in] op_attr
+     * \param[in] type Attribute type
+     * \param[out] data Memory address to save raw content of the attribute
+     * \param[in] len Number of bytes allowed to store in data
+     * \param[out] out Number of bytes required to save the data when the call failed, or the real number of bytes saved to data on success
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(ReadOpAttr, _In_ const OrtOpAttr *op_attr, _In_ OrtOpAttrType type, _Inout_ void *data, _In_ size_t len, _Out_ size_t *out);
+
+    /** \brief Set whether to use deterministic compute.
+     *
+     * Default is false. If set to true, this will enable deterministic compute for GPU kernels where possible.
+     * Note that this most likely will have a performance cost.
+     *
+     * \param[in] options
+     * \param[in] value
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(SetDeterministicCompute, _Inout_ OrtSessionOptions *options, bool value);
+
+    /**
+     * Run fn in parallel
+     *
+     * \param[in] context
+     * \param[in] fn Function accepting usr_data and an integer as iterator
+     * \param[in] total The number of times fn is to be invoked
+     * \param[in] num_batch Number of batches by which the "total" is to be divided in maximum. When zero, there is no limit
+     * \param[in] usr_data User data to be passed back to fn
+     *
+     * \since Version 1.17.
+     */
+    ORT_API2_STATUS(KernelContext_ParallelFor, _In_ const OrtKernelContext *context, _In_ void (*fn)(void *, size_t), _In_ size_t total, _In_ size_t num_batch, _In_ void *usr_data);
+
+    /** \brief Append OpenVINO execution provider to the session options
+     *
+     * If OpenVINO is not available (due to a non OpenVINO enabled build, or if OpenVINO is not installed on the system), this function will fail.
+     *
+     * \param[in] options
+     * \param[in] provider_options_keys
+     * \param[in] provider_options_values
+     * \param[in] num_keys
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_OpenVINO_V2,
+                    _In_ OrtSessionOptions *options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /** \brief Append VitisAI provider to session options
+     *
+     * If VitisAI is not available (due to a non VitisAI enabled build, or if VitisAI is not installed on the system), this function will return failure.
+     *
+     * \param[in] options
+     * \param[in] provider_options_keys
+     * \param[in] provider_options_values
+     * \param[in] num_keys
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SessionOptionsAppendExecutionProvider_VitisAI,
+                    _In_ OrtSessionOptions *options,
+                    _In_reads_(num_keys) const char *const *provider_options_keys,
+                    _In_reads_(num_keys) const char *const *provider_options_values,
+                    _In_ size_t num_keys);
+
+    /** \brief Get scratch buffer from the corresponding allocator under the sepcific OrtMemoryInfo object.
+     *         NOTE: callers are responsible to release this scratch buffer from the corresponding allocator
+     *  \param[in] context OrtKernelContext instance
+     *  \param[in] mem_info OrtMemoryInfo instance
+     *  \param[in] count_or_bytes How many bytes is this scratch buffer
+     *  \param[out] out A pointer to the scrach buffer
+     *  \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelContext_GetScratchBuffer, _In_ const OrtKernelContext *context, _In_ const OrtMemoryInfo *mem_info, _In_ size_t count_or_bytes, _Outptr_ void **out);
+
+    /** \brief Get allocator from KernelInfo for a specific memory type. Please use C API ReleaseAllocator to release out object
+     *
+     * \param[in] info OrtKernelInfo instance
+     * \param[in] mem_type OrtMemType object
+     * \param[out] out A pointer to OrtAllocator
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(KernelInfoGetAllocator, _In_ const OrtKernelInfo *info, _In_ OrtMemType mem_type, _Outptr_ OrtAllocator **out);
+
+    /** \brief Replace initialized Tensors with external data with the provided files in memory
+     *
+     * The function will find the initialized TensorProtos with external data in the graph with the provided
+     * external file names and the file content in memory. The API gets the external file name, offset, data length
+     * from TensorProto, and locate the tensor data from the file in memory buffer.
+     * It creates a Tensor to replace the existing Tensor in graph. The replacement
+     * will occur before any of the optimizations take place. The data will be copied into the graph
+     * since TensorProto can't refer to the user provided buffers.
+     *
+     * \param[in] options
+     * \param[in] external_initializer_file_names Array of null terminated UTF-8 encoded strings of the file names
+     *            which holds the external initializers.
+     * \param[in] external_initializer_file_buffer_array Array of pointers to the buffer of the file content.
+     *            The buffer can be freed after session creation.
+     * \param[in] external_initializer_file_lengths Array of size_t to indicate the length of file content
+     * \param[in] num_external_initializer_files Number of external files
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(AddExternalInitializersFromFilesInMemory, _In_ OrtSessionOptions *options,
+                    _In_reads_(num_external_initializer_files) const ORTCHAR_T *const *external_initializer_file_names,
+                    _In_reads_(num_external_initializer_files) char *const *external_initializer_file_buffer_array,
+                    _In_reads_(num_external_initializer_files) const size_t *external_initializer_file_lengths,
+                    size_t num_external_initializer_files);
+
+    /** \brief Create an OrtLoraAdapter
+     *
+     * The function attempts to locate file specified by adapter_file_path, read it and create an OrtLoraAdapter
+     * instance. The adapter_file_path should be a valid path to a file that contains a valid Lora Adapter
+     * format. The function attempts to validate the format at load time. The file will always be memory mapped, unless
+     * the platform does not support memory mapping, in which case the file will be read into memory.
+     *
+     * \param[in] adapter_file_path adapter file path.
+     * \param[in] allocator optional pointer to a device allocator. If specified
+     *            data is copied to the device at some point before Run() is invoked. If nullptr, data stays on CPU.
+     *            The data would still be copied to device if required by the model at inference time.
+     * \param[out] out A pointer to a newly created OrtLoraAdapter instance. Must be released with
+     *                  OrtApi::ReleaseLoraAdapter.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateLoraAdapter, const ORTCHAR_T *adapter_file_path, _In_ OrtAllocator *allocator,
+                    _Outptr_ OrtLoraAdapter **out);
+
+    /** \brief Create an OrtLoraAdapter
+     *
+     * The function copies the bytes from the array and creates an OrtLoraAdapter instance.
+     *
+     *
+     * \param[in] bytes pointer to a valid Lora Adapter format buffer.
+     * \param[in] num_bytes length of bytes buffer.
+     * \param[in] allocator optional pointer to a device allocator. If specified
+     *            data is copied to the device at some point before Run() is invoked. If nullptr, data stays on CPU.
+     *            The data would still be copied to device if required by the model at inference time.
+     * \param[out] out A pointer to a newly created OrtLoraAdapter instance. Must be released with
+     *                  OrtApi::ReleaseLoraAdapter.
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(CreateLoraAdapterFromArray, _In_ const void *bytes, size_t num_bytes, _In_ OrtAllocator *allocator,
+                    _Outptr_ OrtLoraAdapter **out);
+
+    /** \brief Release an ::OrtLoraAdapter obtained from OrtApi::CreateLoraAdapter
+     */
+    ORT_CLASS_RELEASE(LoraAdapter);
+
+    /** \brief Add the Lora Adapter to the list of active adapters.
+     *
+     * The function adds the Lora Adapter to the list of active adapters. The Lora Adapter must be created with
+     * OrtApi::CreateLoraAdapter or FromArray. The Lora Adapter will be used by the session to run the model.
+     * The instance of the OrtRunOptions can then be used to customize the Run() calls.
+     * More than one OrtLoraAdapter can be active at the same time. Lora Parameters that belong to different
+     * Lora adapters that will be active at the same time must not overlap.
+     * This setting does not affect RunWithBinding.
+     *
+     * \param[in] options OrtRunOptions instance
+     * \param[in] adapter OrtLoraAdapter instance
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(RunOptionsAddActiveLoraAdapter, _Inout_ OrtRunOptions *options, _In_ const OrtLoraAdapter *adapter);
+
+    /// @}
+    /// \name OrtEpDynamicOptions
+    /// @{
+
+    /** \brief Set DynamicOptions for EPs (Execution Providers)
+     *
+     * Valid options can be found in `include\onnxruntime\core\session\onnxruntime_session_options_config_keys.h`
+     * Look for `kOrtEpDynamicOptions`
+     *
+     * \param[in] sess OrtSession
+     * \param[in] keys Array of null terminated UTF8 encoded strings of EP dynamic option keys
+     * \param[in] values Array of null terminated UTF8 encoded string of EP dynamic option values
+     * \param[in] kv_len Number of elements in the keys and values arrays
+     *
+     * \snippet{doc} snippets.dox OrtStatus Return Value
+     */
+    ORT_API2_STATUS(SetEpDynamicOptions, _Inout_ OrtSession *sess, _In_reads_(kv_len) const char *const *keys,
+                    _In_reads_(kv_len) const char *const *values, _In_ size_t kv_len);
+  };
+
+  /*
+   * Steps to use a custom op:
+   *   1 Create an OrtCustomOpDomain with the domain name used by the custom ops
+   *   2 Create an OrtCustomOp structure for each op and add them to the domain
+   *   3 Call OrtAddCustomOpDomain to add the custom domain of ops to the session options
+   */
+
+  // Specifies some characteristics of inputs/outputs of custom ops:
+  // Specify if the inputs/outputs are one of:
+  // 1) Non-optional (input/output must be present in the node)
+  // 2) Optional (input/output may be absent in the node)
+  // 3) Variadic: A variadic input or output specifies N (i.e., the minimum arity) or more operands.
+  //              Only the last input or output of a custom op may be marked as variadic.
+  //              The homogeneity of the variadic input or output determines whether all operands must be of the same
+  //              tensor element type.
+  typedef enum OrtCustomOpInputOutputCharacteristic
+  {
+    INPUT_OUTPUT_REQUIRED = 0,
+    INPUT_OUTPUT_OPTIONAL,
+    INPUT_OUTPUT_VARIADIC,
+  } OrtCustomOpInputOutputCharacteristic;
+
+  /*
+   * The OrtCustomOp structure defines a custom op's schema and its kernel callbacks. The callbacks are filled in by
+   * the implementor of the custom op.
+   */
+  struct OrtCustomOp
+  {
+    uint32_t version; // Must be initialized to ORT_API_VERSION
+
+    // This callback creates the kernel, which is a user defined
+    // parameter that is passed to the Kernel* callbacks below. It is
+    // recommended to use CreateKernelV2 which allows for a safe error
+    // propagation by returning an OrtStatusPtr.
+    void *(ORT_API_CALL *CreateKernel)(_In_ const struct OrtCustomOp *op, _In_ const OrtApi *api,
+                                       _In_ const OrtKernelInfo *info);
+
+    // Returns the name of the op
+    const char *(ORT_API_CALL *GetName)(_In_ const struct OrtCustomOp *op);
+
+    // Returns the type of the execution provider, return nullptr to use CPU execution provider
+    const char *(ORT_API_CALL *GetExecutionProviderType)(_In_ const struct OrtCustomOp *op);
+
+    // Returns the count and types of the input & output tensors
+    ONNXTensorElementDataType(ORT_API_CALL *GetInputType)(_In_ const struct OrtCustomOp *op, _In_ size_t index);
+    size_t(ORT_API_CALL *GetInputTypeCount)(_In_ const struct OrtCustomOp *op);
+    ONNXTensorElementDataType(ORT_API_CALL *GetOutputType)(_In_ const struct OrtCustomOp *op, _In_ size_t index);
+    size_t(ORT_API_CALL *GetOutputTypeCount)(_In_ const struct OrtCustomOp *op);
+
+    // Perform a computation step.  It is recommended to use
+    // KernelComputeV2 which allows for a safe error propagation by
+    // returning an OrtStatusPtr.
+    void(ORT_API_CALL *KernelCompute)(_In_ void *op_kernel, _In_ OrtKernelContext *context);
+    void(ORT_API_CALL *KernelDestroy)(_In_ void *op_kernel);
+
+    // Returns the characteristics of the input & output tensors
+    OrtCustomOpInputOutputCharacteristic(ORT_API_CALL *GetInputCharacteristic)(_In_ const struct OrtCustomOp *op, _In_ size_t index);
+    OrtCustomOpInputOutputCharacteristic(ORT_API_CALL *GetOutputCharacteristic)(_In_ const struct OrtCustomOp *op, _In_ size_t index);
+
+    // Returns the memory type of the input tensors. This API allows the custom op
+    // to place the inputs on specific devices. By default, it returns
+    // OrtMemTypeDefault, which means the input is placed on the default device for
+    // the execution provider. If the inputs need to be with different memory tyeps,
+    // this function can be overridden to return the specific memory types.
+    OrtMemType(ORT_API_CALL *GetInputMemoryType)(_In_ const struct OrtCustomOp *op, _In_ size_t index);
+
+    // Returns the minimum number of input arguments expected for the variadic input.
+    // Applicable only for custom ops that have a variadic input.
+    int(ORT_API_CALL *GetVariadicInputMinArity)(_In_ const struct OrtCustomOp *op);
+
+    // Returns true (non-zero) if all arguments of a variadic input have to be of the same type (homogeneous),
+    // and false (zero) otherwise.
+    // Applicable only for custom ops that have a variadic input.
+    int(ORT_API_CALL *GetVariadicInputHomogeneity)(_In_ const struct OrtCustomOp *op);
+
+    // Returns the minimum number of output values expected for the variadic output.
+    // Applicable only for custom ops that have a variadic output.
+    int(ORT_API_CALL *GetVariadicOutputMinArity)(_In_ const struct OrtCustomOp *op);
+
+    // Returns true (non-zero) if all outputs values of a variadic output have to be of the same type (homogeneous),
+    // and false (zero) otherwise.
+    // Applicable only for custom ops that have a variadic output.
+    int(ORT_API_CALL *GetVariadicOutputHomogeneity)(_In_ const struct OrtCustomOp *op);
+
+    // Create the kernel state which is passed to each compute call.
+    OrtStatusPtr(ORT_API_CALL *CreateKernelV2)(_In_ const struct OrtCustomOp *op, _In_ const OrtApi *api,
+                                               _In_ const OrtKernelInfo *info,
+                                               _Out_ void **kernel);
+
+    // Perform the computation step.
+    OrtStatusPtr(ORT_API_CALL *KernelComputeV2)(_In_ void *op_kernel, _In_ OrtKernelContext *context);
+
+    OrtStatusPtr(ORT_API_CALL *InferOutputShapeFn)(_In_ const struct OrtCustomOp *op, _In_ OrtShapeInferContext *);
+
+    // Get start range
+    int(ORT_API_CALL *GetStartVersion)(_In_ const struct OrtCustomOp *op);
+    int(ORT_API_CALL *GetEndVersion)(_In_ const struct OrtCustomOp *op);
+
+    // Get the inplace_map that defines which output can reuse which input
+    // Callers will provide 2 raw int* and pass in their address, this function will fill these 2 arrays
+    // when return, output (*output_index)[i] may reuse the input (*input_index[i]).
+    // The return value is the size of these 2 arrays.
+    // Callers are responsible to delete these 2 arrays after use by calling OrtCustomOp::ReleaseMayInplace().
+    size_t(ORT_API_CALL *GetMayInplace)(_Out_ int **input_index, _Out_ int **output_index);
+
+    // Release the pointer input_index and output_index allocated from GetMayInplace() function.
+    // If GetMayInplace() is defined, this function MUST be defined as well.
+    void(ORT_API_CALL *ReleaseMayInplace)(_Frees_ptr_opt_ int *input_index, _Frees_ptr_opt_ int *output_index);
+
+    // Same as GetMayInplace() and ReleaseMayInplace()
+    size_t(ORT_API_CALL *GetAliasMap)(_Out_ int **input_index, _Out_ int **output_index);
+    void(ORT_API_CALL *ReleaseAliasMap)(_Frees_ptr_opt_ int *input_index, _Frees_ptr_opt_ int *output_index);
+  };
+
+  /*
+   * This is the old way to add the CUDA provider to the session, please use SessionOptionsAppendExecutionProvider_CUDA above to access the latest functionality
+   * This function always exists, but will only succeed if Onnxruntime was built with CUDA support and the CUDA provider shared library exists
+   *
+   * \param device_id CUDA device id, starts from zero.
+   */
+  ORT_API_STATUS(OrtSessionOptionsAppendExecutionProvider_CUDA, _In_ OrtSessionOptions *options, int device_id);
+
+  /*
+   * This is the old way to add the ROCm provider to the session, please use
+   * SessionOptionsAppendExecutionProvider_ROCM above to access the latest functionality
+   * This function always exists, but will only succeed if Onnxruntime was built with
+   * HIP support and the ROCm provider shared library exists
+   *
+   * \param device_id HIP device id, starts from zero.
+   */
+  ORT_API_STATUS(OrtSessionOptionsAppendExecutionProvider_ROCM, _In_ OrtSessionOptions *options, int device_id);
+
+  /*
+   * This is the old way to add the MIGraphX provider to the session, please use
+   * SessionOptionsAppendExecutionProvider_MIGraphX above to access the latest functionality
+   * This function always exists, but will only succeed if Onnxruntime was built with
+   * HIP support and the MIGraphX provider shared library exists
+   *
+   * \param device_id HIP device id, starts from zero.
+   */
+  ORT_API_STATUS(OrtSessionOptionsAppendExecutionProvider_MIGraphX, _In_ OrtSessionOptions *options, int device_id);
+
+  /*
+   * This is the old way to add the oneDNN provider to the session, please use
+   * SessionOptionsAppendExecutionProvider_oneDNN above to access the latest functionality
+   * This function always exists, but will only succeed if Onnxruntime was built with
+   * oneDNN support and the oneDNN provider shared library exists
+   *
+   * \param use_arena zero: false. non-zero: true.
+   */
+  ORT_API_STATUS(OrtSessionOptionsAppendExecutionProvider_Dnnl, _In_ OrtSessionOptions *options, int use_arena);
+
+  /*
+   * This is the old way to add the TensorRT provider to the session, please use SessionOptionsAppendExecutionProvider_TensorRT_V2 above to access the latest functionality
+   * This function always exists, but will only succeed if Onnxruntime was built with TensorRT support and the TensorRT provider shared library exists
+   *
+   * \param device_id CUDA device id, starts from zero.
+   */
+  ORT_API_STATUS(OrtSessionOptionsAppendExecutionProvider_Tensorrt, _In_ OrtSessionOptions *options, int device_id);
+
+#ifdef __cplusplus
+}
+#endif
+/// @}
diff --git a/silero-vad.cabal b/silero-vad.cabal
--- a/silero-vad.cabal
+++ b/silero-vad.cabal
@@ -5,7 +5,7 @@
 -- see: https://github.com/sol/hpack
 
 name:           silero-vad
-version:        0.1.0.3
+version:        0.1.0.4
 synopsis:       Voice activity detection powered by SileroVAD.
 description:    A haskell implentation of SileroVAD, a pre-trained enterprise-grade voice activity detector.
 category:       Audio, Sound
@@ -18,6 +18,19 @@
 build-type:     Simple
 tested-with:
     GHC == 9.8, GHC == 9.2.8, GHC == 8.10.7
+extra-source-files:
+    cbits/silero/detector.c
+    cbits/silero/detector.h
+    cbits/silero/model.c
+    cbits/silero/model.h
+    cbits/vec.c
+    cbits/vec.h
+    lib/onnxruntime/onnxruntime_c_api.h
+    lib/onnxruntime/linux-x64/libonnxruntime.so
+    lib/onnxruntime/mac-x64/libonnxruntime.dylib
+    lib/onnxruntime/mac-arm64/libonnxruntime.dylib
+    lib/onnxruntime/windows-x64/onnxruntime.dll
+    lib/silero_vad.onnx
 extra-doc-files:
     README.md
     CHANGELOG.md
@@ -70,8 +83,7 @@
   cc-options: -Wno-unused-result
   include-dirs:
       cbits
-      cbits/silero
-      lib/onnxruntime
+      lib
   c-sources:
       cbits/silero/detector.c
       cbits/silero/model.c
@@ -127,8 +139,7 @@
   cc-options: -Wno-unused-result
   include-dirs:
       cbits
-      cbits/silero
-      lib/onnxruntime
+      lib
   c-sources:
       cbits/silero/detector.c
       cbits/silero/model.c
@@ -190,8 +201,7 @@
   cc-options: -Wno-unused-result
   include-dirs:
       cbits
-      cbits/silero
-      lib/onnxruntime
+      lib
   c-sources:
       cbits/silero/detector.c
       cbits/silero/model.c
