ReaPER+
Cross-source consensus on ReaPER+ from 1 sources and 6 claims.
1 sources · 6 claims
How it works
Benefits
Risks & contraindications
Highlighted claims
- ReaPER+ anneals replay priority from TD-error prioritization toward reliability-aware replay during training. — Replay-buffer engineering for noise-robust quantum circuit optimization
- In 1-qubit small-rotation compilation, ReaPER+ achieved the highest success probability at every tested fidelity tolerance. — Replay-buffer engineering for noise-robust quantum circuit optimization
- ReaPER+ reduced the episodes needed for 2-qubit ZZ(pi) approximation compared with fixed ReaPER, PER, HER, and PPO. — Replay-buffer engineering for noise-robust quantum circuit optimization
- The annealing schedule is motivated by unreliable early reliability estimates and more informative later estimates. — Replay-buffer engineering for noise-robust quantum circuit optimization
- In 1-qubit HRC compilation, ReaPER+ matched the best success and fidelity while using fewer gates than fixed ReaPER and PER. — Replay-buffer engineering for noise-robust quantum circuit optimization
- ReaPER+ is not claimed to dominate universally across all environments and schedules. — Replay-buffer engineering for noise-robust quantum circuit optimization