diff --git a/README.md b/README.md
index c9d8a54ce6739cbf9e0f9b0a7a779315f51b0c0e..59caf7eabf2146d69a6f7f477236d80e5b3d95d6 100644
--- a/README.md
+++ b/README.md
@@ -9,18 +9,16 @@ Implementation of a Basic Distributed Arithmetic Architechture for MAC
 - Based on this assumption we can generate a LUT which allows us to transform the SoP to a series of shifts and adds.
 
 - The File generate_LUT.cpp can be used to generate the LUT values for a given set of input coefficients. If you compile the file it can be run in the command line in the following format:
-- 
-- `> generate_LUT [Multiplicand Bit-Width] [C[0]] [C[1]] [C[2]] [C[3]] .... [C[n]] `
-- 
-- i.e
-- 
-- `generate_LUT 16 -4 -3 1 9`
-- 
-- would generate the LUT for the coefficients c[0] = -4, c[1] = -3, c[2] = 1, c[3] = 9, and a 16-bit Bit-Width for your Multiplicand.
-- 
-- The generate multiplication coefficients can be stored as an unpacked array of packed values and should be connected directly to the `multiplication_coefficients` input port.
-
-
+ 
+    `> generate_LUT [Multiplicand Bit-Width] [C[0]] [C[1]] [C[2]] [C[3]] .... [C[n]] `
+    
+    i.e
+    
+    `generate_LUT 16 -4 -3 1 9`
+    
+    would generate the LUT for the coefficients c[0] = -4, c[1] = -3, c[2] = 1, c[3] = 9, and a 16-bit Bit-Width for your Multiplicand.
+
+    The generate multiplication coefficients can be stored as an unpacked array of packed values and should be connected directly to the           `multiplication_coefficients` input port.
 
 **Example**