This old article from when HyperThreading (HT) was first introduced provides a lot of details on how it works (though I'm sure many improvements have been made over the last 10 years). http://www.intel.com/technology/itj/2002/volume06issue01/vol6iss1_hyper_threading_technology.pdf:
Each logical processor maintains a complete set of the architecture state. The architecture state consists of registers including the general-purpose registers, the control registers, the advanced programmable interrupt controller (APIC) registers, and some machine state registers. From a software perspective, once the architecture state is duplicated, the processor appears to be two processors. The number of transistors to store the architecture state is an extremely small fraction of the total.
However, the following sentence shows where HT can bottleneck:
Logical processors share nearly all other resources on the physical processor, such as caches, execution units, branch predictors, control logic, and buses.
If the threads execution are each keeping one or more of those shared resources (such as the execution unit or buses) 100% busy, then the hyperthreading will not improve throughput. Since benchmarks often exercise one aspect of a system (intentionally or not), it's not surprising that one of these shared processor resources would end up being a bottleneck and prevent HT from showing a benefit.