逢甲學報, Band 38逢甲大學, 2000 |
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Seite 33
... Java Engine can reach much higher efficiency for several reasons . First , it adopts real Java processors as basic execution unit . The Java processor is a version of JVM that mostly implemented in hardware , so it is able to execute ...
... Java Engine can reach much higher efficiency for several reasons . First , it adopts real Java processors as basic execution unit . The Java processor is a version of JVM that mostly implemented in hardware , so it is able to execute ...
Seite 41
communication time between computers . However , when using Java Engine , the computation time is made up of execution time of bytecode , class - loading time and communication time between CPU and Java processors . We suppose that ...
communication time between computers . However , when using Java Engine , the computation time is made up of execution time of bytecode , class - loading time and communication time between CPU and Java processors . We suppose that ...
Seite 45
... Java Engine a novel execution environment for Java in a hardware / software approach . Java Engine can reach much higher efficiency for several reasons . Firsts , it allows communication time between CPU and Java processors to overlap ...
... Java Engine a novel execution environment for Java in a hardware / software approach . Java Engine can reach much higher efficiency for several reasons . Firsts , it allows communication time between CPU and Java processors to overlap ...
Inhalt
The Research of Pegging the National Annuity Insurance Premium along | 1 |
Evidence from Taiwan and The | 11 |
The Java Processors to Enhance Execution Performance | 29 |
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active inductor adiabatic B1 for various Biot number bytecodes cast iron roller causality Chill depth chilled gray cast chiller chiller material circuit cointegration computation intensive applications convective instabilities critical Rayleigh number critical wavenumber cut in G(V d-MC candidate decision tree decreases deformably free depth ratio dr economic growth edge(s equation error correction execution Feng Chia University Figure fluid layer fluid-solid interface forecast error variance FPGA free upper surface Granger Granger-causality gray cast iron impulse responses inductance Java Class Library Java Engine Java processor Java programs Java Virtual Machine Journal of Feng k-cut problem Kohm maximal weight maximin cut maximum MESFET min-cut minimax algorithm minimax cut minimax/maximin cut node parameter G Rayleigh number Rc response of exports server shock sublayer surface tension Taiwan Taylor number temperature Theorem thermal conductivity ratio total weight variables variance decompositions vertex viscosity parameter B1 wavenumber ૐ ૐ ૐ