Synchronous writing of patterned media

What is claimed is: 1. An apparatus comprising: an integrated circuit including: a detector circuit configured to detect a bit sequence read from a patterned medium; a data generator circuit coupled to a delay line and configured to generate bits of a known data pattern; multiple bit-error counters coupled to the delay line and each configured to compare a bit or shifted bit of the known data pattern to a bit of the detected bit sequence and count a number of bit-errors over a period of time; a control circuit configured to count a number of bits processed by the bit-error counters; multiple registers, each of the multiple registers configured to store a result of a corresponding bit-error counter over the period of time; and an adjustment circuit configured to modify a count of grain patterns between two servo wedges of the patterned medium based on the results of the bit-error counters stored in the registers, the adjustment circuit further configured to store the modified count of grain patterns to enable synchronous writing of the patterned medium. 2. The apparatus of claim 1 further comprising: a housing forming a data storage device; an interface configured to allow the apparatus to be connected to and removed from a computing device; the patterned medium; and the integrated circuit being a system-on-chip (SoC) and further including: a servo control module; a data control module; a single clock source configured to provide a clock signal to control reading of servo wedges on the patterned medium and writing of user data areas on the patterned medium; and a data channel including a disc locked clock configured to modulate a frequency and phase of the clock signal to ensure that an expected number of clock cycles are observed between servo wedges. 3. The apparatus of claim 2 further comprising the single clock source is a phase locked loop clock source. 4. The apparatus of claim 3 further comprising the integrated circuit configured to utilize the detected bit sequence for timing recovery where a sampling phase of the clock signal is adjusted based on timing information determined by errors of the detected bit sequence. 5. The apparatus of claim 4 further comprising: the SoC further includes: a continuous time front end (CTFE) circuit configured to generate a modified analog signal from a received analog signal corresponding to the patterned medium having servo wedges and data areas with a same grain pattern density; a digital phase converter (DPC) circuit configured to produce an adjusted clock signal by adjusting the sampling phase of the clock signal based on the timing information determined; and a write channel configured to synchronously write data to the data areas of the grain patterned medium based on the adjusted clock signal. 6. The apparatus of claim 1 further comprising: the multiple bit-error counters each correspond to a different bit shift of the known data pattern; and the integrated circuit includes a programmable circuit configured to allow programming of a selected number of bit-error counters and programming of a number of corresponding registers. 7. The apparatus of claim 6 further comprising: the multiple bit-error counters include at least three counters, including: a first counter representing the known data pattern, a second counter representing a first shift of the known data pattern, and a third counter representing a second shift of the known data pattern. 8. The apparatus of claim 1 further comprising the adjustment circuit configured to determine the count of the grain patterns by comparing a count of bit-errors stored in each of the registers. 9. A method comprising: writing a data area of a patterned medium with a known data pattern; performing a read of the data area to detect a bit sequence read from the patterned medium; generating bits of the known data pattern and providing the bits of the known data pattern to a delay line; determining a deviation between the detected bit sequence and the known data pattern based on counting a number of bit-errors over a period of time by comparing, via multiple bit-error counters coupled to the delay line, a bit or shifted bit of the known data pattern to a bit of the detected bit sequence; storing, via multiple registers, a result of a corresponding bit-error counter over the period of time; determining a count of grain patterns within the data area based on the deviation, including modifying the count of grain patterns between two servo wedges of the patterned medium based on the results of the bit-error counters stored in the registers; and storing the modified count of grain patterns to enable synchronous writing of the patterned medium. 10. The method of claim 9 further comprising: providing a clock signal from a single source to control reading of servo wedges on the patterned medium and writing of user data areas on the patterned medium; and modulating, via a disc locked clock, a frequency and phase of the clock signal to ensure that an expected number of clock cycles are observed between servo wedges. 11. The method of claim 10 further comprising: the single clock source is a phase locked loop clock source; utilizing the detected bit sequence for timing recovery, where a sampling phase of the clock signal is adjusted based on timing information determined by errors of the detected bit sequence to produce an adjusted clock signal; and synchronously writing data to data areas of the patterned medium based on the adjusted clock signal. 12. The method of claim 9 further comprising: performing the read of the data area to obtain the detected bit sequence, further including: generating a modified analog signal from a received analog signal corresponding to the patterned medium having servo wedges and data areas with a same grain pattern density; and sampling the modified analog signal to generate digital samples used to obtain the detected bit sequence. 13. The method of claim 9 further comprising: counting the number of bit-errors over the period of time includes using the multiple bit-error counters to compare the detected bit sequence to different shifts in the known data pattern, the multiple bit-error counters including at least three counters: a first counter representing the known data pattern, a second counter representing a first shift of the known data pattern, and a third counter representing a second shift of the known data pattern. 14. The method of claim 13 further comprising: programming a selected number of the multiple bit-error counters to each correspond to a different bit shift of the known data pattern. 15. The method of claim 9 further comprising determining the count of the grain patterns by comparing a count of bit-errors stored in each of the registers. 16. A storage device storing instructions that, when executed, cause a processor to perform a method comprising: detecting a bit sequence read from a patterned medium; generating and providing bits of a known data pattern to a delay line; counting a number of bit-errors over a period of time by comparing, via multiple bit-error counters coupled to the delay line, a bit or shifted bit of the known data pattern to a bit of the detected bit sequence; storing, via multiple registers, a result of a corresponding bit-error counter over the period of time; modifying the count of grain patterns between two servo wedges of the patterned medium based on the results of the bit-error counters stored in the registers; and storing the modified count of grain pa