diff --git a/README.md b/README.md
index f771226..d94db55 100644
--- a/README.md
+++ b/README.md
@@ -133,6 +133,47 @@ ffff998b`c5369e74 ff2500000000    jmp     qword ptr [ffff998b`c5369e7a]
 
 The linker is able to get the address of the branching code by taking the rip relative virtual address of the branching operation, which is a signed number, and adding it to the current byte offset into the current routine, plus the size of the branching instruction. For example `LoopDemo@17` + size of the branching instruction, which is six bytes, then adding the signed relative virtual address (0x2A). The result of this simple calculation gives us `LoopDemo@65`, which is correct, the branch goes to `add rsp, 28h` in the above example.
 
+# Usage - Using Theodosius 
+
+Theodosius uses the same class structure as HMDM does. Its a highly modular format which allows for extreme usage, supporting almost every idea one might have. In order to use Theo, you must first define three lambdas, `theo::memcpy_t` a method of copying memory, `theo::malloc_t` a method to allocate executable memory, and lastely `theo::resolve_symbol_t` a lamdba to resolve external symbols.
+
+### theo::memcpy_t - copy memory lambda
+
+This is used to write memory, it is never used to read memory. An example of this lambda using VDM could be:
+
+```cpp
+theo::memcpy_t _kmemcpy =
+[&](void* dest, const void* src, std::size_t size) -> void*
+{
+	static const auto kmemcpy =
+		reinterpret_cast<void*>(
+			utils::kmodule::get_export(
+				"ntoskrnl.exe", "memcpy"));
+
+	return vdm.syscall<decltype(&memcpy)>(kmemcpy, dest, src, size);
+};
+```
+
+This uses VDM to syscall into memcpy exported by ntoskrnl... If you want to do something in usermode you can proxy memcpy to `WriteProcessMemory` or any other method of writing memory.
+
+```cpp
+theo::memcpy_t _memcpy =
+[&](void* dest, const void* src, std::size_t size) -> void*
+{
+	SIZE_T bytes_handled;
+	if (!WriteProcessMemory(phandle, dest, src, size, &bytes_handled))
+	{
+		std::printf("[!] failed to write process memory...\n");
+		exit(-1);
+	}
+	return dest;
+};
+```
+
+### theo::malloc_t - allocate executable memory
+
+
+
 # Obfuscation
 
 The usage of the word obfuscation in this project is use to define any changes made to code, this includes code flow. `obfuscation::obfuscate`, a base class, which is inherited and expanded upon by `obfuscation::mutation`, obfuscates code flow by inserting `JMP [RIP+0x0]` instructions after every single instruction. This allows for a routine to be broken up into unique allocations of memory and thus provides more canvas room for creative ideas.