Accuracy and performance of graphics processors: A Quantum Monte Carlo application case study

In this paper we investigate the multi-period forecast performance of a number of empirical self-exciting threshold autoregressive (SETAR) models that have been proposed in the literature for modelling exchange rates and GNP, among other variables. We take each of the empirical SETAR models in turn

## Abstract Quantum Monte Carlo and a series of other ab initio as well as density functional theory calculations were performed for the enthalpy of formation of C~4~H~3~ and C~4~H~5~ radicals. The computed Δ~f~H~298~^0^ values, in kcal/mol, are 126.0 for __n__‐C~4~H~3~, 119.4 for __i__‐C~4~H~3~, 8

## Abstract A quantum Monte Carlo (QMC) benchmark study of heats of formation at 298 K and bond dissociation energies (BDEs) of 22 small hydrocarbons is reported. Diffusion Monte Carlo (DMC) results, obtained using a simple product trial wavefunctions consisting of a single determinant and correlat

## Abstract This paper illustrates the pitfalls of the conventional heteroskedasticity and autocorrelation robust (HAR) Wald test and the advantages of new HAR tests developed by Kiefer and Vogelsang in 2005 and by Phillips, Sun and Jin in 2003 and 2006. The illustrations use the 1993 Fama–French t

We address the problem of tests of homogeneity in two-way contingency tablea in cam-control studies when the case category is subdivided into k subcategoriea. In this situation, we have two cells with large frequencies and 2 x k cells with frequencies that become small as k increaeee. We propose two