| 1. | Optimizing backup and restore performance in sql server >优化备份和还原性能 |
| 2. | Iron ores - determination of reduction properties under load 铁矿石.负载条件下还原性能测定 |
| 3. | Optimizing restore performance 优化还原性能 |
| 4. | Photocatalytic activity of copper doping tio2 prepared by several methods 掺铜方法对二氧化钛光催化氧化还原性能的影响 |
| 5. | Colour rendering ; colour rendering properties of light sources in the field of lighting 彩色还原.第2部分:照明场地光源的彩色还原性能 |
| 6. | Selective catalytic reduction of no with c3h6 over sno2 - al2o3 binary metal oxide catalysts 3复合氧化物催化剂的一氧化氮选择催化还原性能 |
| 7. | The interfering signal is produced by cryptographic algorithm , with good restoration resistance 干扰信号由密码算法产生,具有良好的抗还原性能。 |
| 8. | Contains information about how to optimize performance for data and differential backups and transaction log backups , for restore operations , and for backup devices 介绍优化数据、差异备份和事务日志备份的性能、优化还原性能以及优化备份设备性能。 |
| 9. | Discusses how , when you use restore to repair a known and isolated problem , you can optimize restore performance by restoring only files in which the problem appears 讨论当使用还原来修复隔离的已知问题时,如何通过仅还原出现问题的文件来优化还原性能。 |
| 10. | Several variables affect tape backup device performance and allow sql server backup and restore performance operations to roughly scale linearly as more tape devices are added 有四个变量影响磁带备份设备的性能,并使sql server备份和还原性能操作随磁带设备的添加大致呈线性增长。 |