We initiate the study of complexity classes ${A^B}$ where ${A}$ and ${B}$ are both ${TFNP}$ subclasses. For example, we consider complexity classes of the form ${PPP^{PPP}}$, ${PPAD^{PPA}}$, and ${PPA^{PLS}}$. We define complete problems for such classes, and show that they belong in ${TFNP}$. These definitions require some care, since ... more >>>

Quantum computational pseudorandomness has emerged as a fundamental notion that spans connections to complexity theory, cryptography and fundamental physics. However, all known constructions of efficient quantum-secure pseudorandom objects rely on complexity theoretic assumptions.

In this work, we establish the first unconditionally secure efficient pseudorandom constructions against shallow-depth ... more >>>

A problem $\mathcal{P}$ is considered downward self-reducible, if there exists an efficient algorithm for $\mathcal{P}$ that is allowed to make queries to only strictly smaller instances of $\mathcal{P}$. Downward self-reducibility has been well studied in the case of decision problems, and it is well known that any downward self-reducible problem ... more >>>