At the bottom of Page 264 of CLRS, the authors say after obtaining r0 = 17612864, the 14 most significant bits of r0 yield the hash value h(k) = 67. I do not understand why it gives 67 since 67 in binary is 1000011 which is 7 bits.

**EDIT**
In the textbook:
As an example, suppose we have k = 123456, p = 14, m = 2^14 = 16384, and w = 32. Adapting Knuth's suggestion, we choose A to be the fraction of the form s/2^32 that is closest to (\sqrt(5) - 1) / 2, so that A = 2654435769/2^32. then k*s = 327706022297664 = (76300 * 2^32) + 17612864, and so r1 = 76300 and r0 = 17612864. The 14 most significant bits of r0 yield the value h(k)=67.

`w`

is 32, you extract`p`

(14) bits from the left (most significant) of a 32-bit number. – Esailija Nov 2 '12 at 2:51