diff --git a/_gsocblogs/2024/blog_ATLCompression_IshanDarji.md b/_gsocblogs/2024/blog_ATLCompression_IshanDarji.md
index e4778f4d4..e3bdab091 100644
--- a/_gsocblogs/2024/blog_ATLCompression_IshanDarji.md
+++ b/_gsocblogs/2024/blog_ATLCompression_IshanDarji.md
@@ -101,6 +101,7 @@ Below we are plotting compression speed and compression ratio generated by the a
 The ideal library would have high compression speed and low compression ratio. We can see that `brotli` covers the widest range, giving us the option to have the slowest compression speed in exchange for the lowest compression ratio, but also the second-fastest speed with the highest ratio. It is also immediately noticeable that `zlib` consistently gives compression ratios that are higher than desirable for the speed being compressed. Both `xz` and `lzlib` perform very similarly, where they do not offer the same range of options that `brotli` and `zstd` do, and they only operate in the slower and lower compression ratio end of the spectrum, but they are an improvement over `brotli` and `zstd` within that range. 
 
 In the end, to compare each library with the most similar compression speed to `zlib` at compression level 1 we see:
+
 | Library | Level | Ratio | Compression | Decompression |
 |---------|-------|-------|-------------|---------------|
 |zlib | 1 | 62.23 | 67.7 MB/s |  234 MB/s |
@@ -108,6 +109,7 @@ In the end, to compare each library with the most similar compression speed to `
 |brotli | 4 | 57.74 | 57.1 MB/s |  268 MB/s| 
 
 Whereas when looking at the most similar compression ratios  we see:
+
 | Library | Level | Ratio | Compression | Decompression |
 |---------|-------|-------|-------------|---------------|
 |zlib | 1 | 62.23 | 67.7 MB/s |  234 MB/s |