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Temporal counting logic Kt[#] and its equivalent RASP variant C-RASP are the best-known lower bound on the expressivity of future-masked softmax transformer encoders.
Samenvatting
The paper introduces the temporal counting logic Kt[#] and its equivalent RASP variant C-RASP. It proves that Kt[#] and C-RASP are the tightest-known lower bound on the expressivity of future-masked softmax transformer encoders with unbounded input size.
Key highlights:
- Kt[#] and C-RASP can express a variety of regular, context-free, and non-context-free languages.
- The authors prove that all Kt[#] formulas can be compiled into softmax transformer encoders.
- They show that the previous best lower bound, FOC[+; MOD], is strictly less expressive than Kt[#].
- The paper demonstrates how C-RASP can be used to construct simple transformer decoder language models with formally specifiable behavior.
- It is also shown that transformers using fixed-precision numbers can be compiled back to Kt[#].
The paper provides a strong theoretical framework for understanding the computational power of transformers, using formal logic and programming language theory.
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