Keskeiset käsitteet
This paper introduces a cost-aware approach to simulation-based inference (SBI) that leverages importance sampling to reduce the computational burden of expensive simulations, particularly when the cost varies across different parameter values, without compromising the accuracy of the posterior approximation.
Tilastot
Simulating 20,000 samples from a Gamma distribution with varying shape parameters, the cost-aware approach with g(z) = z2 and g(z) = z3 reduced simulation time by more than half compared to using the prior distribution.
In the Bernoulli SIR model, the cost-aware NPE with g(z) = z achieved a 37% reduction (2.4 hours) in simulation cost without sacrificing performance.
For the temporal SIR model, using g(z) = z2 in the cost-aware NPE yielded the most significant time savings of 85% (380 seconds), with only a slight increase in MMD.
In a radio propagation model with four parameters, simulating 10,000 samples using the cost-aware proposal with g(z) = z2 took 8.8 hours, compared to 15.6 hours with a uniform prior, resulting in a 44% cost reduction.
Lainaukset
"In this paper, we propose the first family of cost-aware alternatives to popular SBI methods such as neural posterior estimation (NPE), neural likelihood estimation (NLE) and approximate Bayesian computation (ABC)."
"Cost-aware SBI uses self-normalised importance sampling with an importance distribution constructed to encourage sampling from the cheaper parameterisations of the model."
"This leads to SBI methods capable of significant computational savings without compromising significantly on accuracy."