| 1. | Analysis and study of basic block of the old female ' fashion 老年女性服装原型的分析研究 |
| 2. | Block , giving the optimizer a much larger basic block to work with 块,向优化器提供了一个更大的基本块。 |
| 3. | Including basic blocks such as japan knit , cultural basic block denglimei basic block 含日本knit文化式登丽美原型。 |
| 4. | Optimizing with profile data results in better register allocation . basic block optimization 寄存器分配用配置文件数据进行优化,可以实现更好的寄存器分配。 |
| 5. | Basic block optimization allows commonly executed basic blocks that temporally execute within a given frame to be placed in the same set of pages locality 基本块优化使用基本块优化,可以将在给定框架内按时间顺序执行的常用基本块放在同一组页面(区域)中。 |
| 6. | And depending on what other optimizations are enabled by the larger basic block , the duration for which the lock is held may not even be lengthened under coarsening (而且根据更大的基本块支持其他何种优化,在粗化的情况下,持有锁的时间甚至可能不会延长。 ) |
| 7. | The structure and mechanism of jit compiler is described as sections below : basic block splitting static and dynamic basic block splitting algorithm is described here , and optimized “ n look forward ” algorithm is proposed 随后分为如下几部分细描述了编译内核的实现机制与运行过程:基本块的划分描述了静态和动态的基本块划分算法,并提出效率上更加优化的“ n级预先搜索”算法。 |
| 8. | The organization of basic blocks gba has several regions of memory which differ on size and speed . i analyze these operations on basic blocks which have greatest impact on system performance , and proposed approach to organize basic blocks base on memory region 基本块的组织根据gba不同区域内存的大小与访问方式,分析对运行效率有较大影响操作,提出根据访问区域和操作优化过的基本块组织算法。 |
| 9. | As can be seen , the manner in which it has been constructed - that is , from the ground up , by putting together basic blocks to form slightly more complex blocks , putting those together to form even more complex blocks , and so on - lends itself naturally to some kind of a " visual " rule builder 如您所见,它的构造方式即,通过将构造块从下到上放到一起以构成更复杂的块,再将它们放到一起以构成更复杂的块,等等使它本身天然地成为某种“可视化的”规则构造器。 |
| 10. | Researched the methods to test configrable logic block ( clb ) and its sub - blocks . based on a “ divide and conquer ” methodology , the clb resources are divided into three basic blocks : logic units , carry logic module ( clm ) and lut ’ s ( look up tables ) ram - mode . the testing configurations are implemented based on a two - dimensional array structure for logic blocks 主要基于“分治法”对clb及其子模块进位逻辑( clm ) 、查找表( lut )的ram工作模式等进行了测试划分,分别实现了以“一维阵列”为基础的测试配置和测试向量,以较少了测试编程次数完成了所有clb资源的测试。 |