From 071e0701ef90e725f4865196ced80a1594a0b8ae Mon Sep 17 00:00:00 2001
From: Olivia Liu <olivialpx@fb.com>
Date: Wed, 2 Oct 2024 15:59:28 -0700
Subject: [PATCH 1/2] New URL for the Model Debugging page

Differential Revision: D63738950
---
 docs/source/index.rst          |  2 +-
 docs/source/model-debugging.md | 82 ++++++++++++++++++++++++++++++++++
 docs/source/sdk-debugging.md   | 81 +--------------------------------
 3 files changed, 84 insertions(+), 81 deletions(-)
 create mode 100644 docs/source/model-debugging.md

diff --git a/docs/source/index.rst b/docs/source/index.rst
index 048fab70a26..96200938044 100644
--- a/docs/source/index.rst
+++ b/docs/source/index.rst
@@ -205,7 +205,7 @@ Topics in this section will help you get started with ExecuTorch.
    etrecord
    sdk-etdump
    sdk-profiling
-   sdk-debugging
+   model-debugging
    sdk-inspector
    memory-planning-inspection
    delegate-debugging
diff --git a/docs/source/model-debugging.md b/docs/source/model-debugging.md
new file mode 100644
index 00000000000..80358fe99a1
--- /dev/null
+++ b/docs/source/model-debugging.md
@@ -0,0 +1,82 @@
+# Debugging Models in ExecuTorch
+
+With the ExecuTorch Developer Tools, users can debug their models for numerical inaccurcies and extract model outputs from their device to do quality analysis (such as Signal-to-Noise, Mean square error etc.).
+
+Currently, ExecuTorch supports the following debugging flows:
+- Extraction of model level outputs via ETDump.
+- Extraction of intermediate outputs (outside of delegates) via ETDump:
+  - Linking of these intermediate outputs back to the eager model python code.
+
+
+## Steps to debug a model in ExecuTorch
+
+### Runtime
+For a real example reflecting the steps below, please refer to [example_runner.cpp](https://github.com/pytorch/executorch/blob/main/examples/devtools/example_runner/example_runner.cpp).
+
+1. [Optional] Generate an [ETRecord](./etrecord.rst) while exporting your model. When provided, this enables users to link profiling information back to the eager model source code (with stack traces and module hierarchy).
+2. Integrate [ETDump generation](./sdk-etdump.md) into the runtime and set the debugging level by configuring the `ETDumpGen` object. Then, provide an additional buffer to which intermediate outputs and program outputs will be written. Currently we support two levels of debugging:
+    - Program level outputs
+    ```C++
+    Span<uint8_t> buffer((uint8_t*)debug_buffer, debug_buffer_size);
+    etdump_gen.set_debug_buffer(buffer);
+    etdump_gen.set_event_tracer_debug_level(
+        EventTracerDebugLogLevel::kProgramOutputs);
+    ```
+
+    - Intermediate outputs of executed (non-delegated) operations (will include the program level outputs too)
+    ```C++
+    Span<uint8_t> buffer((uint8_t*)debug_buffer, debug_buffer_size);
+    etdump_gen.set_debug_buffer(buffer);
+    etdump_gen.set_event_tracer_debug_level(
+        EventTracerDebugLogLevel::kIntermediateOutputs);
+    ```
+3. Build the runtime with the pre-processor flag that enables tracking of debug events. Instructions are in the [ETDump documentation](./sdk-etdump.md).
+4. Run your model and dump out the ETDump buffer as described [here](./sdk-etdump.md). (Do so similarly for the debug buffer if configured above)
+
+
+### Accessing the debug outputs post run using the Inspector API's
+Once a model has been run, using the generated ETDump and debug buffers, users can leverage the [Inspector API's](./sdk-inspector.rst) to inspect these debug outputs.
+
+```python
+from executorch.devtools import Inspector
+
+# Create an Inspector instance with etdump and the debug buffer.
+inspector = Inspector(etdump_path=etdump_path,
+            buffer_path = buffer_path,
+            # etrecord is optional, if provided it'll link back
+            # the runtime events to the eager model python source code.
+            etrecord = etrecord_path)
+
+# Accessing program outputs is as simple as this:
+for event_block in inspector.event_blocks:
+    if event_block.name == "Execute":
+        print(event_blocks.run_output)
+
+# Accessing intermediate outputs from each event (an event here is essentially an instruction that executed in the runtime).
+for event_block in inspector.event_blocks:
+    if event_block.name == "Execute":
+        for event in event_block.events:
+            print(event.debug_data)
+            # If an ETRecord was provided by the user during Inspector initialization, users
+            # can print the stacktraces and module hierarchy of these events.
+            print(event.stack_traces)
+            print(event.module_hierarchy)
+```
+
+We've also provided a simple set of utilities that let users perform quality analysis of their model outputs with respect to a set of reference outputs (possibly from the eager mode model).
+
+
+```python
+from executorch.devtools.inspector import compare_results
+
+# Run a simple quality analysis between the model outputs sourced from the
+# runtime and a set of reference outputs.
+#
+# Setting plot to True will result in the quality metrics being graphed
+# and displayed (when run from a notebook) and will be written out to the
+# filesystem. A dictionary will always be returned which will contain the
+# results.
+for event_block in inspector.event_blocks:
+    if event_block.name == "Execute":
+        compare_results(event_blocks.run_output, ref_outputs, plot = True)
+```
diff --git a/docs/source/sdk-debugging.md b/docs/source/sdk-debugging.md
index 80358fe99a1..3e975875f21 100644
--- a/docs/source/sdk-debugging.md
+++ b/docs/source/sdk-debugging.md
@@ -1,82 +1,3 @@
 # Debugging Models in ExecuTorch
 
-With the ExecuTorch Developer Tools, users can debug their models for numerical inaccurcies and extract model outputs from their device to do quality analysis (such as Signal-to-Noise, Mean square error etc.).
-
-Currently, ExecuTorch supports the following debugging flows:
-- Extraction of model level outputs via ETDump.
-- Extraction of intermediate outputs (outside of delegates) via ETDump:
-  - Linking of these intermediate outputs back to the eager model python code.
-
-
-## Steps to debug a model in ExecuTorch
-
-### Runtime
-For a real example reflecting the steps below, please refer to [example_runner.cpp](https://github.com/pytorch/executorch/blob/main/examples/devtools/example_runner/example_runner.cpp).
-
-1. [Optional] Generate an [ETRecord](./etrecord.rst) while exporting your model. When provided, this enables users to link profiling information back to the eager model source code (with stack traces and module hierarchy).
-2. Integrate [ETDump generation](./sdk-etdump.md) into the runtime and set the debugging level by configuring the `ETDumpGen` object. Then, provide an additional buffer to which intermediate outputs and program outputs will be written. Currently we support two levels of debugging:
-    - Program level outputs
-    ```C++
-    Span<uint8_t> buffer((uint8_t*)debug_buffer, debug_buffer_size);
-    etdump_gen.set_debug_buffer(buffer);
-    etdump_gen.set_event_tracer_debug_level(
-        EventTracerDebugLogLevel::kProgramOutputs);
-    ```
-
-    - Intermediate outputs of executed (non-delegated) operations (will include the program level outputs too)
-    ```C++
-    Span<uint8_t> buffer((uint8_t*)debug_buffer, debug_buffer_size);
-    etdump_gen.set_debug_buffer(buffer);
-    etdump_gen.set_event_tracer_debug_level(
-        EventTracerDebugLogLevel::kIntermediateOutputs);
-    ```
-3. Build the runtime with the pre-processor flag that enables tracking of debug events. Instructions are in the [ETDump documentation](./sdk-etdump.md).
-4. Run your model and dump out the ETDump buffer as described [here](./sdk-etdump.md). (Do so similarly for the debug buffer if configured above)
-
-
-### Accessing the debug outputs post run using the Inspector API's
-Once a model has been run, using the generated ETDump and debug buffers, users can leverage the [Inspector API's](./sdk-inspector.rst) to inspect these debug outputs.
-
-```python
-from executorch.devtools import Inspector
-
-# Create an Inspector instance with etdump and the debug buffer.
-inspector = Inspector(etdump_path=etdump_path,
-            buffer_path = buffer_path,
-            # etrecord is optional, if provided it'll link back
-            # the runtime events to the eager model python source code.
-            etrecord = etrecord_path)
-
-# Accessing program outputs is as simple as this:
-for event_block in inspector.event_blocks:
-    if event_block.name == "Execute":
-        print(event_blocks.run_output)
-
-# Accessing intermediate outputs from each event (an event here is essentially an instruction that executed in the runtime).
-for event_block in inspector.event_blocks:
-    if event_block.name == "Execute":
-        for event in event_block.events:
-            print(event.debug_data)
-            # If an ETRecord was provided by the user during Inspector initialization, users
-            # can print the stacktraces and module hierarchy of these events.
-            print(event.stack_traces)
-            print(event.module_hierarchy)
-```
-
-We've also provided a simple set of utilities that let users perform quality analysis of their model outputs with respect to a set of reference outputs (possibly from the eager mode model).
-
-
-```python
-from executorch.devtools.inspector import compare_results
-
-# Run a simple quality analysis between the model outputs sourced from the
-# runtime and a set of reference outputs.
-#
-# Setting plot to True will result in the quality metrics being graphed
-# and displayed (when run from a notebook) and will be written out to the
-# filesystem. A dictionary will always be returned which will contain the
-# results.
-for event_block in inspector.event_blocks:
-    if event_block.name == "Execute":
-        compare_results(event_blocks.run_output, ref_outputs, plot = True)
-```
+Please update your link to <https://pytorch.org/executorch/main/model-debugging.html>. This URL will be deleted after v0.4.0.

From 04afdf13d8ab3fd2194dae7a7c3fa8b5f7fe7f73 Mon Sep 17 00:00:00 2001
From: Olivia Liu <olivialpx@meta.com>
Date: Wed, 2 Oct 2024 16:03:14 -0700
Subject: [PATCH 2/2] New URL for the ETDump page (#5809)

Summary:
Pull Request resolved: https://github.com/pytorch/executorch/pull/5809

This diff is to rename the "sdk-etdump" documentation page to just "etdump".

Old URL: https://pytorch.org/executorch/main/sdk-etdump.html
New URL ("sdk" is removed):
https://pytorch.org/executorch/main/etdump.html

Design doc: https://docs.google.com/document/d/1l6DYTq9Kq6VrPohruRFP-qScZDj01W_g4zlKyvqKGF4/edit?usp=sharing

Reviewed By: dbort

Differential Revision: D63738952
---
 backends/apple/mps/setup.md                   |  2 +-
 docs/source/build-run-coreml.md               |  4 +-
 docs/source/devtools-overview.md              |  2 +-
 docs/source/etdump.md                         | 44 +++++++++++++++++++
 docs/source/extension-module.md               |  2 +-
 docs/source/index.rst                         |  2 +-
 docs/source/llm/getting-started.md            |  2 +-
 docs/source/model-debugging.md                |  6 +--
 docs/source/sdk-etdump.md                     | 43 +-----------------
 docs/source/sdk-inspector.rst                 |  2 +-
 docs/source/sdk-profiling.md                  |  4 +-
 .../devtools-integration-tutorial.py          |  4 +-
 extension/pybindings/pybindings.pyi           |  2 +-
 13 files changed, 61 insertions(+), 58 deletions(-)
 create mode 100644 docs/source/etdump.md

diff --git a/backends/apple/mps/setup.md b/backends/apple/mps/setup.md
index 697d93ea659..7cd4c240a43 100644
--- a/backends/apple/mps/setup.md
+++ b/backends/apple/mps/setup.md
@@ -116,7 +116,7 @@ python3 -m examples.apple.mps.scripts.mps_example --model_name="mv3" --no-use_fp
 cd executorch
 python3 -m examples.apple.mps.scripts.mps_example --model_name="mv3" --generate_etrecord -b
 ```
-2. Run your Program on the ExecuTorch runtime and generate an [ETDump](./sdk-etdump.md).
+2. Run your Program on the ExecuTorch runtime and generate an [ETDump](./etdump.md).
 ```
 ./cmake-out/examples/apple/mps/mps_executor_runner --model_path mv3_mps_bundled_fp16.pte --bundled_program --dump-outputs
 ```
diff --git a/docs/source/build-run-coreml.md b/docs/source/build-run-coreml.md
index 6e0cc802df6..51b64f8ea9b 100644
--- a/docs/source/build-run-coreml.md
+++ b/docs/source/build-run-coreml.md
@@ -100,7 +100,7 @@ python3 -m examples.apple.coreml.scripts.export --model_name mv3 --generate_etre
 # Builds `coreml_executor_runner`.
 ./examples/apple/coreml/scripts/build_executor_runner.sh
 ```
-3. Run and generate an [ETDump](./sdk-etdump.md).
+3. Run and generate an [ETDump](./etdump.md).
 ```bash
 cd executorch
 
@@ -108,7 +108,7 @@ cd executorch
 ./coreml_executor_runner --model_path mv3_coreml_all.pte --profile_model --etdump_path etdump.etdp
 ```
 
-4. Create an instance of the [Inspector API](./sdk-inspector.rst) by passing in the [ETDump](./sdk-etdump.md) you have sourced from the runtime along with the optionally generated [ETRecord](./etrecord.rst) from step 1 or execute the following command in your terminal to display the profiling data table.
+4. Create an instance of the [Inspector API](./sdk-inspector.rst) by passing in the [ETDump](./etdump.md) you have sourced from the runtime along with the optionally generated [ETRecord](./etrecord.rst) from step 1 or execute the following command in your terminal to display the profiling data table.
 ```bash
 python examples/apple/coreml/scripts/inspector_cli.py --etdump_path etdump.etdp --etrecord_path mv3_coreml.bin
 ```
diff --git a/docs/source/devtools-overview.md b/docs/source/devtools-overview.md
index e18b7f16c64..222040a0f48 100644
--- a/docs/source/devtools-overview.md
+++ b/docs/source/devtools-overview.md
@@ -36,7 +36,7 @@ ETDump (ExecuTorch Dump) is the binary blob that is generated by the runtime aft
 If you only care about looking at the raw performance data without linking back to source code and other extensive features, an ETDump alone will be enough to leverage the basic features of the Developer Tools. For the full experience, it is recommended that the users also generate an ETRecord.
 ```
 
-More details are available in the [ETDump documentation](sdk-etdump.md) on how to generate and store an ETDump from the runtime.
+More details are available in the [ETDump documentation](etdump.md) on how to generate and store an ETDump from the runtime.
 
 
 ### Inspector APIs
diff --git a/docs/source/etdump.md b/docs/source/etdump.md
new file mode 100644
index 00000000000..c58efb40de7
--- /dev/null
+++ b/docs/source/etdump.md
@@ -0,0 +1,44 @@
+# Prerequisite | ETDump - ExecuTorch Dump
+
+ETDump (ExecuTorch Dump) is one of the core components of the ExecuTorch Developer Tools. It is the mechanism through which all forms of profiling and debugging data is extracted from the runtime. Users can't parse ETDump directly; instead, they should pass it into the Inspector API, which deserializes the data, offering interfaces for flexible analysis and debugging.
+
+
+## Generating an ETDump
+
+Generating an ETDump is a relatively straightforward process. Users can follow the steps detailed below to integrate it into their application that uses ExecuTorch.
+
+1. ***Include*** the ETDump header in your code.
+```C++
+#include <executorch/devtools/etdump/etdump_flatcc.h>
+```
+
+2. ***Create*** an Instance of the ETDumpGen class and pass it into the `load_method` call that is invoked in the runtime.
+
+```C++
+torch::executor::ETDumpGen etdump_gen = torch::executor::ETDumpGen();
+Result<Method> method =
+      program->load_method(method_name, &memory_manager, &etdump_gen);
+```
+
+3. ***Dump Out the ETDump Buffer*** - after the inference iterations have been completed, users can dump out the ETDump buffer. If users are on a device which has a filesystem, they could just write it out to the filesystem. For more constrained embedded devices, users will have to extract the ETDump buffer from the device through a mechanism that best suits them (e.g. UART, JTAG etc.)
+
+```C++
+etdump_result result = etdump_gen.get_etdump_data();
+if (result.buf != nullptr && result.size > 0) {
+    // On a device with a file system users can just write it out
+    // to the file-system.
+    FILE* f = fopen(FLAGS_etdump_path.c_str(), "w+");
+    fwrite((uint8_t*)result.buf, 1, result.size, f);
+    fclose(f);
+    free(result.buf);
+  }
+```
+
+4. ***Compile*** your binary using CMake with the `ET_EVENT_TRACER_ENABLED` pre-processor flag to enable events to be traced and logged into ETDump inside the ExecuTorch runtime. This flag needs to be added to the ExecuTorch library and any operator library that you are compiling into your binary. For reference, you can take a look at `examples/sdk/CMakeLists.txt`. The lines of interest are:
+```
+target_compile_options(executorch INTERFACE -DET_EVENT_TRACER_ENABLED)
+target_compile_options(portable_ops_lib INTERFACE -DET_EVENT_TRACER_ENABLED)
+```
+## Using an ETDump
+
+Pass this ETDump into the [Inspector API](./sdk-inspector.rst) to access this data and do post-run analysis.
diff --git a/docs/source/extension-module.md b/docs/source/extension-module.md
index 878356ba5d9..ee3ffd29a57 100644
--- a/docs/source/extension-module.md
+++ b/docs/source/extension-module.md
@@ -134,7 +134,7 @@ Most of the ExecuTorch APIs, including those described above, return either `Res
 
 ### Profile the Module
 
-Use [ExecuTorch Dump](sdk-etdump.md) to trace model execution. Create an instance of the `ETDumpGen` class and pass it to the `Module` constructor. After executing a method, save the `ETDump` to a file for further analysis. You can capture multiple executions in a single trace if desired.
+Use [ExecuTorch Dump](etdump.md) to trace model execution. Create an instance of the `ETDumpGen` class and pass it to the `Module` constructor. After executing a method, save the `ETDump` to a file for further analysis. You can capture multiple executions in a single trace if desired.
 
 ```cpp
 #include <fstream>
diff --git a/docs/source/index.rst b/docs/source/index.rst
index 96200938044..a96c0db1c2a 100644
--- a/docs/source/index.rst
+++ b/docs/source/index.rst
@@ -203,7 +203,7 @@ Topics in this section will help you get started with ExecuTorch.
    devtools-overview
    bundled-io
    etrecord
-   sdk-etdump
+   etdump
    sdk-profiling
    model-debugging
    sdk-inspector
diff --git a/docs/source/llm/getting-started.md b/docs/source/llm/getting-started.md
index 1cfeab6e5e6..3766cce957d 100644
--- a/docs/source/llm/getting-started.md
+++ b/docs/source/llm/getting-started.md
@@ -774,7 +774,7 @@ Run the export script and the ETRecord will be generated as `etrecord.bin`.
 
 ##### ETDump generation
 
-An ETDump is an artifact generated at runtime containing a trace of the model execution. For more information, see [the ETDump docs](../sdk-etdump.md).
+An ETDump is an artifact generated at runtime containing a trace of the model execution. For more information, see [the ETDump docs](../etdump.md).
 
 Include the ETDump header in your code.
 ```cpp
diff --git a/docs/source/model-debugging.md b/docs/source/model-debugging.md
index 80358fe99a1..ac8e993f021 100644
--- a/docs/source/model-debugging.md
+++ b/docs/source/model-debugging.md
@@ -14,7 +14,7 @@ Currently, ExecuTorch supports the following debugging flows:
 For a real example reflecting the steps below, please refer to [example_runner.cpp](https://github.com/pytorch/executorch/blob/main/examples/devtools/example_runner/example_runner.cpp).
 
 1. [Optional] Generate an [ETRecord](./etrecord.rst) while exporting your model. When provided, this enables users to link profiling information back to the eager model source code (with stack traces and module hierarchy).
-2. Integrate [ETDump generation](./sdk-etdump.md) into the runtime and set the debugging level by configuring the `ETDumpGen` object. Then, provide an additional buffer to which intermediate outputs and program outputs will be written. Currently we support two levels of debugging:
+2. Integrate [ETDump generation](./etdump.md) into the runtime and set the debugging level by configuring the `ETDumpGen` object. Then, provide an additional buffer to which intermediate outputs and program outputs will be written. Currently we support two levels of debugging:
     - Program level outputs
     ```C++
     Span<uint8_t> buffer((uint8_t*)debug_buffer, debug_buffer_size);
@@ -30,8 +30,8 @@ For a real example reflecting the steps below, please refer to [example_runner.c
     etdump_gen.set_event_tracer_debug_level(
         EventTracerDebugLogLevel::kIntermediateOutputs);
     ```
-3. Build the runtime with the pre-processor flag that enables tracking of debug events. Instructions are in the [ETDump documentation](./sdk-etdump.md).
-4. Run your model and dump out the ETDump buffer as described [here](./sdk-etdump.md). (Do so similarly for the debug buffer if configured above)
+3. Build the runtime with the pre-processor flag that enables tracking of debug events. Instructions are in the [ETDump documentation](./etdump.md).
+4. Run your model and dump out the ETDump buffer as described [here](./etdump.md). (Do so similarly for the debug buffer if configured above)
 
 
 ### Accessing the debug outputs post run using the Inspector API's
diff --git a/docs/source/sdk-etdump.md b/docs/source/sdk-etdump.md
index c58efb40de7..a765d4cf1b4 100644
--- a/docs/source/sdk-etdump.md
+++ b/docs/source/sdk-etdump.md
@@ -1,44 +1,3 @@
 # Prerequisite | ETDump - ExecuTorch Dump
 
-ETDump (ExecuTorch Dump) is one of the core components of the ExecuTorch Developer Tools. It is the mechanism through which all forms of profiling and debugging data is extracted from the runtime. Users can't parse ETDump directly; instead, they should pass it into the Inspector API, which deserializes the data, offering interfaces for flexible analysis and debugging.
-
-
-## Generating an ETDump
-
-Generating an ETDump is a relatively straightforward process. Users can follow the steps detailed below to integrate it into their application that uses ExecuTorch.
-
-1. ***Include*** the ETDump header in your code.
-```C++
-#include <executorch/devtools/etdump/etdump_flatcc.h>
-```
-
-2. ***Create*** an Instance of the ETDumpGen class and pass it into the `load_method` call that is invoked in the runtime.
-
-```C++
-torch::executor::ETDumpGen etdump_gen = torch::executor::ETDumpGen();
-Result<Method> method =
-      program->load_method(method_name, &memory_manager, &etdump_gen);
-```
-
-3. ***Dump Out the ETDump Buffer*** - after the inference iterations have been completed, users can dump out the ETDump buffer. If users are on a device which has a filesystem, they could just write it out to the filesystem. For more constrained embedded devices, users will have to extract the ETDump buffer from the device through a mechanism that best suits them (e.g. UART, JTAG etc.)
-
-```C++
-etdump_result result = etdump_gen.get_etdump_data();
-if (result.buf != nullptr && result.size > 0) {
-    // On a device with a file system users can just write it out
-    // to the file-system.
-    FILE* f = fopen(FLAGS_etdump_path.c_str(), "w+");
-    fwrite((uint8_t*)result.buf, 1, result.size, f);
-    fclose(f);
-    free(result.buf);
-  }
-```
-
-4. ***Compile*** your binary using CMake with the `ET_EVENT_TRACER_ENABLED` pre-processor flag to enable events to be traced and logged into ETDump inside the ExecuTorch runtime. This flag needs to be added to the ExecuTorch library and any operator library that you are compiling into your binary. For reference, you can take a look at `examples/sdk/CMakeLists.txt`. The lines of interest are:
-```
-target_compile_options(executorch INTERFACE -DET_EVENT_TRACER_ENABLED)
-target_compile_options(portable_ops_lib INTERFACE -DET_EVENT_TRACER_ENABLED)
-```
-## Using an ETDump
-
-Pass this ETDump into the [Inspector API](./sdk-inspector.rst) to access this data and do post-run analysis.
+Please update your link to <https://pytorch.org/executorch/main/etdump.html>. This URL will be deleted after v0.4.0.
diff --git a/docs/source/sdk-inspector.rst b/docs/source/sdk-inspector.rst
index 4d46915a8af..d80a8960b1b 100644
--- a/docs/source/sdk-inspector.rst
+++ b/docs/source/sdk-inspector.rst
@@ -6,7 +6,7 @@ Overview
 
 The Inspector APIs provide a convenient interface for analyzing the
 contents of `ETRecord <etrecord.html>`__ and
-`ETDump <sdk-etdump.html>`__, helping developers get insights about model
+`ETDump <etdump.html>`__, helping developers get insights about model
 architecture and performance statistics. It’s built on top of the `EventBlock Class <#eventblock-class>`__ data structure,
 which organizes a group of `Event <#event-class>`__\ s for easy access to details of profiling events.
 
diff --git a/docs/source/sdk-profiling.md b/docs/source/sdk-profiling.md
index b618dbf8f18..dda71345cd8 100644
--- a/docs/source/sdk-profiling.md
+++ b/docs/source/sdk-profiling.md
@@ -14,8 +14,8 @@ We provide access to all the profiling data via the Python [Inspector API](./sdk
 ## Steps to Profile a Model in ExecuTorch
 
 1. [Optional] Generate an [ETRecord](./etrecord.rst) while you're exporting your model. If provided this will enable users to link back profiling details to eager model source code (with stack traces and module hierarchy).
-2.  Build the runtime with the pre-processor flags that enable profiling. Detailed in the [ETDump documentation](./sdk-etdump.md).
-3. Run your Program on the ExecuTorch runtime and generate an [ETDump](./sdk-etdump.md).
+2.  Build the runtime with the pre-processor flags that enable profiling. Detailed in the [ETDump documentation](./etdump.md).
+3. Run your Program on the ExecuTorch runtime and generate an [ETDump](./etdump.md).
 4. Create an instance of the [Inspector API](./sdk-inspector.rst) by passing in the ETDump you have sourced from the runtime along with the optionally generated ETRecord from step 1.
     - Through the Inspector API, users can do a wide range of analysis varying from printing out performance details to doing more finer granular calculation on module level.
 
diff --git a/docs/source/tutorials_source/devtools-integration-tutorial.py b/docs/source/tutorials_source/devtools-integration-tutorial.py
index 92d8e326004..dea306a03d5 100644
--- a/docs/source/tutorials_source/devtools-integration-tutorial.py
+++ b/docs/source/tutorials_source/devtools-integration-tutorial.py
@@ -20,7 +20,7 @@
 # This tutorial will show a full end-to-end flow of how to utilize the Developer Tools to profile a model.
 # Specifically, it will:
 #
-# 1. Generate the artifacts consumed by the Developer Tools (`ETRecord <../etrecord.html>`__, `ETDump <../sdk-etdump.html>`__).
+# 1. Generate the artifacts consumed by the Developer Tools (`ETRecord <../etrecord.html>`__, `ETDump <../etdump.html>`__).
 # 2. Create an Inspector class consuming these artifacts.
 # 3. Utilize the Inspector class to analyze the model profiling result.
 
@@ -297,5 +297,5 @@ def forward(self, x):
 #
 # - `ExecuTorch Developer Tools Overview <../devtools-overview.html>`__
 # - `ETRecord <../etrecord.html>`__
-# - `ETDump <../sdk-etdump.html>`__
+# - `ETDump <../etdump.html>`__
 # - `Inspector <../sdk-inspector.html>`__
diff --git a/extension/pybindings/pybindings.pyi b/extension/pybindings/pybindings.pyi
index 51c134de1ff..0b7be42ca7a 100644
--- a/extension/pybindings/pybindings.pyi
+++ b/extension/pybindings/pybindings.pyi
@@ -136,7 +136,7 @@ def _load_for_executorch(
     Args:
         path: File path to the ExecuTorch program as a string.
         enable_etdump: If true, enables an ETDump which can store profiling information.
-            See documentation at https://pytorch.org/executorch/stable/sdk-etdump.html
+            See documentation at https://pytorch.org/executorch/stable/etdump.html
             for how to use it.
         debug_buffer_size: If non-zero, enables a debug buffer which can store
             intermediate results of each instruction in the ExecuTorch program.