This paper aims to give an overview of the current state of fault-tolerant
quantum computing, by surveying a number of results in the field. We show that
thresholds can be obtained for a simple noise model as first proved in [AB97,
Kit97, KLZ98], by presenting a proof for statistically independent noise,
following the presentation of Aliferis, Gottesman and Preskill [AGP06]. We also
present a result by Terhal and Burkard [TB05] and later improved upon by
Aliferis, Gottesman and Preskill [AGP06] that shows a threshold can still be
obtained for local non-Markovian noise, where we allow the noise to be weakly
correlated in space and time. We then turn to negative results, presenting work
by Ben-Aroya and Ta-Shma [BT11] who showed conditional errors cannot be
perfectly corrected. We end our survey by briefly mentioning some more
speculative objections, as put forth by Kalai [Kal08, Kal09, Kal11]