Abstract: In an example, there is provided a system and method for execution profiling detection of malicious software objects. An execution profiling (EXP) engine may be provided in conjunction with a binary translation engine (BTE). Both may operate within a trusted execution environment (TEE). Because many malware objects make assumptions about memory usage of host applications, they may cause exceptions when those assumptions prove untrue. The EXP engine may proactively detect such exceptions via the BTE when the BTE performs its translation function. Thus, malicious behavior may be detected before a binary runs on a system, and remedial measures may be provided.

Abstract: In an example, there is provided a system and method for execution profiling detection of malicious software objects. An execution profiling (EXP) engine may be provided in conjunction with a binary translation engine (BTE). Both may operate within a trusted execution environment (TEE). Because many malware objects make assumptions about memory usage of host applications, they may cause exceptions when those assumptions prove untrue. The EXP engine may proactively detect such exceptions via the BTE when the BTE performs its translation function. Thus, malicious behavior may be detected before a binary runs on a system, and remedial measures may be provided.

Abstract: A ceramic superconductor is produced by close control of oxygen partial pressure during sintering of the material. The resulting microstructure of YBa.sub.2 Cu.sub.3 O.sub.x indicates that sintering kinetics are enhanced at reduced p(O.sub.2). The density of specimens sintered at 910.degree. C. increased from 79 to 94% theoretical when p(O.sub.2) was decreased from 0.1 to 0.0001 MPa. The increase in density with decrease in p(O.sub.2) derives from enhanced sintering kinetics, due to increased defect concentration and decreased activation energy of the rate-controlling species undergoing diffusion. Sintering at 910.degree. C. resulted in a fine-grain microstructure, with an average grain size of approximately 4 .mu.m. Such a microstructure results in reduced microcracking, strengths as high as 191 MPa and high critical current density capacity.

Abstract: An electrically conductive material for use in solid oxide fuel cells, electrochemical sensors for combustion exhaust, and various other applications possesses increased fracture toughness over available materials, while affording the same electrical conductivity. One embodiment of the sintered electrically conductive material consists essentially of cubic ZrO.sub.2 as a matrix and 6-19 wt. % monoclinic ZrO.sub.2 formed from particles having an average size equal to or greater than about 0.23 microns. Another embodiment of the electrically conductive material consists essentially at cubic ZrO.sub.2 as a matrix and 10-30 wt. % partially stabilized zirconia (PSZ) formed from particles having an average size of approximately 3 microns.

Abstract: A high chromia refractory composite has been developed with improved thermal shock resistance and containing about 5-30 wt. % of unstabilized ZrO.sub.2 having a temperature-dependent phase change resulting in large expansion mismatch between the ZrO.sub.2 and the chromia matrix which causes microcracks to form during cooling in the high chromia matrix. The particle size preferably is primarily between about 0.6-5 microns and particularly below about 3 microns with an average size in the order of 1.2-1.8 microns.