diff --git a/contributors.md b/contributors.md
index 04292e4..c839673 100644
--- a/contributors.md
+++ b/contributors.md
@@ -89,3 +89,4 @@ Thank you to all contributors:
 * [Roy Wellington Ⅳ](https://github.com/thanatos)
 * [Jonathan Rennison](https://github.com/JGRennison)
 * [Mack Stump](https://github.com/rmbreak)
+* [Pushpinder Singh](https://github.com/PrinceDhaliwal)
diff --git a/mm/linux-mm-1.md b/mm/linux-mm-1.md
index 59aa2ed..7d30f76 100644
--- a/mm/linux-mm-1.md
+++ b/mm/linux-mm-1.md
@@ -4,7 +4,7 @@ Linux kernel memory management Part 1.
 Introduction
 --------------------------------------------------------------------------------
 
-Memory management is one of the most complex (and I think that it is the most complex) parts of the operating system kernel. In the [last preparations before the kernel entry point](http://0xax.gitbooks.io/linux-insides/content/Initialization/linux-initialization-3.html) part we stopped right before call of the `start_kernel` function. This function initializes all the kernel features (including architecture-dependent features) before the kernel runs the first `init` process. You may remember as we built early page tables, identity page tables and fixmap page tables in the boot time. No complicated memory management is working yet. When the `start_kernel` function is called we will see the transition to more complex data structures and techniques for memory management. For a good understanding of the initialization process in the linux kernel we need to have a clear understanding of these techniques. This chapter will provide an overview of the different parts of the linux kernel memory management framework and its API, starting from the `memblock`.
+Memory management is one of the most complex (and I think that it is the most complex) part of the operating system kernel. In the [last preparations before the kernel entry point](http://0xax.gitbooks.io/linux-insides/content/Initialization/linux-initialization-3.html) part we stopped right before call of the `start_kernel` function. This function initializes all the kernel features (including architecture-dependent features) before the kernel runs the first `init` process. You may remember as we built early page tables, identity page tables and fixmap page tables in the boot time. No complicated memory management is working yet. When the `start_kernel` function is called we will see the transition to more complex data structures and techniques for memory management. For a good understanding of the initialization process in the linux kernel we need to have a clear understanding of these techniques. This chapter will provide an overview of the different parts of the linux kernel memory management framework and its API, starting from the `memblock`.
 
 Memblock
 --------------------------------------------------------------------------------