Thanks! I’ll have more thorough results to share about layer-wise reprsentations of the MSP soon. I’ve already run some of the analysis concatenating over all layers residual streams with RRXOR process and it is quite interesting. It seems there’s a lot more to explore with the relationship between number of states in the generative model, number of layers in the transformer, residual stream dimension, and token vocab size. All of these (I think) play some role in how the MSP is represented in the transformer. For RRXOR it is the case that things look crisper when concatenating.
Even for cases where redundant info is discarded, we should be able to see the distinctions somewhere in the transformer. One thing I’m keen on really exploring is such a case, where we can very concretely follow the path/circuit through which redundant info is first distinguished and then is collapsed.
Thanks! I’ll have more thorough results to share about layer-wise reprsentations of the MSP soon. I’ve already run some of the analysis concatenating over all layers residual streams with RRXOR process and it is quite interesting. It seems there’s a lot more to explore with the relationship between number of states in the generative model, number of layers in the transformer, residual stream dimension, and token vocab size. All of these (I think) play some role in how the MSP is represented in the transformer. For RRXOR it is the case that things look crisper when concatenating.
Even for cases where redundant info is discarded, we should be able to see the distinctions somewhere in the transformer. One thing I’m keen on really exploring is such a case, where we can very concretely follow the path/circuit through which redundant info is first distinguished and then is collapsed.