MLP based front-ends have shown significant complementary properties to conventional spectral features. As part of DARPA GALE program, different MLP features were developed for Mandarin ASR. In this paper, all the proposed front-ends are compared in systematic manner and we extensively investigate the scalability of these features in terms of amount of training data (from 100 hours to 1600 hours) and system complexity (maximum likelihood training, SAT training, lattice level combination, and discriminative training). Results on 5 hours of evaluation data from the GALE project reveal that the MLP features consistently produce relative improvements in the range of (15%-23%) at the different step of a multipass system when compared to the conventional short-term spectral based features like MFCC and PLP.