例句與造句

1. Component code generator
   組件程序代碼產(chǎn)生器
2. The result is almost a kind of magic - by following a few simple rules , a j2ee application can automatically gain transactional semantics with little or no additional component code
   結(jié)果簡直是一種魔術(shù)通過遵守幾條簡單的規(guī)則， j2ee應(yīng)用程序就可以自動獲得事務(wù)性語義，只需極少或根本不需要額外的組件代碼。
3. The parameters include generator polynomial of component codes , interleave length and the type of interleavers , iterative decoding algorithms and iteration number , code rates and channel models et al
   這些參數(shù)主要包括分量碼、交織長度和交織器類型、迭代譯碼算法和譯碼迭代次數(shù)、編碼速率以及信道條件等。
4. Bandwidth efficient multilevel coded modulation system based on ldpc codes is described in the last part of this thesis . furthermore , the designing method of combining component code rate and degree distribution is introduced
   介紹了ldpc碼的多層編碼調(diào)制系統(tǒng)中，分量碼碼率與度序列分布聯(lián)合最優(yōu)的設(shè)計準則，并給出了相應(yīng)的理論分析。
5. Fortunately , the java transaction service and the j2ee container do much of the work of managing transactions for you automatically , so you don t have to integrate transaction awareness directly into your component code
   幸運的是， java事務(wù)服務(wù)（ java transaction service ， jts ）和j2ee容器自動為您做了大量的事務(wù)管理工作，這樣您就不必將事務(wù)意識直接集成到組件代碼中。
6. It's difficult to find component code in a sentence. 用component code造句挺難的
7. Thirdly , with the analyzing the bit error upper bound of sccc and simulating performance in the matlab environment , the factors that affect the performance of sccc such as scheme of component codes and interleave ) : are addressed and the some design criteria are given
   繼而通過對sccc性能限的分析以及matlab仿真，探討了影響sccc糾錯性能的主要因素，如內(nèi)碼外碼方案、交織器方案等，并給出了其設(shè)計原則。
8. Not only does this make the resulting component code easier to read because it is not cluttered with transaction management code , but it has another , more significant advantage - the transactional semantics of the component can be changed at application assembly time , without modifying or even accessing the source code for the component
   這不僅使結(jié)果組件代碼更加易讀（因為它不與事務(wù)管理代碼混在一起） ，而且它還有另一個更重要的優(yōu)點不必修改，甚至不必訪問組件的源代碼，就可以在應(yīng)用程序裝配時改變組件的事務(wù)性語義。
9. Several key reuse - based techniques , as well as the design and implementation of the system , in the development of component information classification and coding system ( ciccs ) , are studied in this paper , such as component coding structure model , developing pattern based on component / framework , design of the classification method , half - layered software architecture model , component variation point and its implement mechanism
   從軟構(gòu)件的編碼結(jié)構(gòu)模型、基于構(gòu)件構(gòu)架的開發(fā)模式、軟構(gòu)件的分類方法設(shè)計、半層次化的軟件體系結(jié)構(gòu)模型以及構(gòu)件的變點及其實現(xiàn)機制等方面，研究了軟構(gòu)件信息分類編碼系統(tǒng)開發(fā)中基于軟件復(fù)用的設(shè)計和實現(xiàn)方法。
10. In order to further improve the performance , we propose two new kinds of codes , which are ldpc / turbo code , simply denoted by “ l / t ” code , and the product code with generator - based systematic irregular ldpc codes as its component codes in rows and columns . the factors that can impact the performance of the coded systems are investigated and concluded through the simulations
    為了進一步提高信道編碼的性能,本文又提出了兩種新的編碼方法,即l / t碼(組合ldpc和turbo編碼)和基于生成矩陣非正規(guī)ldpc碼的乘積碼,并在awgn信道下對其性能分別進行了仿真,總結(jié)出碼長,迭代次數(shù)等不同因素對譯碼性能的影響。
11. Based on the simulation results , the key techniques for the design of turbo codes , including the choice of component codes , the design of interleaver , trellis termination schemes and puncturing methods , are discussed deeply . by measuring the statistical characteristic of extrinsic information from component decoders , new iterative stopping criteria and snr estimation updator are devised . also , it is used to implement synchronization of carrier phase
    本文首先對turbo碼的基本編譯碼原理進行分析，在仿真結(jié)果的基礎(chǔ)上對turbo碼設(shè)計中的分量碼選擇、交織器設(shè)計、編碼器狀態(tài)歸零方案以及刪余方式等部分關(guān)鍵問題進行探討；通過考察外部信息的統(tǒng)計特性，設(shè)計了新的迭代停止準則和snr估計更新器，并利用外部信息實現(xiàn)串聯(lián)載波相位同步；最后對turbo均衡進行簡要分析。
12. The research for key techniques of turbo codes is processed . it includes , ? the design of optimal component codes and the performance of asymmetric turbo codes are analyzed ; ? a search algorithm for short random interleaver based on the distance spectrum and ids criteria is carried out and simplified ; ? random puncturing method to improve the weight distribution of turbo codes with some special code rates is analyzed and simulated . ? the effect of different schemes of trellis termination to the performance of turbo codes is analyzed ; ? a new low complexity decoder structure is provided ; 5
    對turbo碼的部分關(guān)鍵問題進行分析和改進，主要包括： ?分析了最優(yōu)分量碼的設(shè)計和非對稱turbo碼的性能； ?設(shè)計了基于距離譜和ids的短隨機交織器搜索算法并進行了簡化； ?提出了采用隨機刪余方式改善特定高碼率turbo碼重量分布特性的方法； ?分析了不同編碼器狀態(tài)歸零方案對turbo碼性能的影響； ?提出了一種降低實現(xiàn)復(fù)雜性的turbo迭代譯碼器結(jié)構(gòu)。