例句與造句

1. A transistor memory cell can be made with any number of terminals .
   晶體管存貯單元端點(diǎn)的數(shù)量是不受限制的。
2. Low voltage flash memory cells using sige quantum dots for enhancing f - n tunneling
   隧穿的低壓閃速存儲(chǔ)器
3. Physical addresses are used to address memory cells in memory chips
   物理地址是用來真正訪問內(nèi)存單元的地址。
4. A new memory array structure decreasing disturb between memory cells
   一種減小存儲(chǔ)單元間串?dāng)_的新型陣列布局結(jié)構(gòu)
5. These memory cells have natural movement due to magentic influences
   由于磁場感應(yīng)影響這些記憶細(xì)胞具有自然運(yùn)動(dòng)。
6. It's difficult to find memory cell in a sentence. 用memory cell造句挺難的
7. Active memory cell
   有源存儲(chǔ)元件
8. What sequence of events do you think would be required to move the contents of one memory cell in a computer to another memory cell
   你認(rèn)為要搬移某記憶體單元的內(nèi)容至另一記憶體單元需要哪些一連串的事件來完成
9. As i was browsing through an old newspaper , i read aloud to my wife a news item about men losing their memory cells faster than women do
   “我翻閱著一份舊報(bào)紙，大聲地給妻子讀一則消息，上面說男人的記憶細(xì)胞比女人的死得要快。
10. One was a technique to lay down polysilicon so that each island of a single crystal is large enough to encompass many memory cells or transistors
    第一種技術(shù)是鋪陳多晶矽的技術(shù)，這項(xiàng)技術(shù)使每一個(gè)單晶矽島變得足夠大，因而能包含更多的記憶胞或電晶體。
11. This paper presents an elite inheritance strategy of antibody in memory cells to strengthen the memory function and antibody concentration regulation mechanism of immune system , which can make the immune genetic algorithm ( iga ) converge to the global optimal point more rapidly and stably
    摘要提出了一種記憶細(xì)胞精英抗體遺傳策略，能強(qiáng)化免疫系統(tǒng)的記憶功能和抗體濃度調(diào)節(jié)機(jī)制，從而使免疫遺傳算法更快速、穩(wěn)定地收斂到全局最優(yōu)點(diǎn)。
12. In the process of design , the thesis using the circuit structure of inverter series within memory cell , and sharing read and write ports within multi - bit for the first time , solves dominoes effect for driving multi - read port problem , and reduces layout area of double - memory cell for about 40 % , respectively
    在設(shè)計(jì)過程中,首次對位單元采用反相器級聯(lián)的電路結(jié)構(gòu),解決了由于驅(qū)動(dòng)多讀出端口問題引起的電路驅(qū)動(dòng)多米諾效應(yīng);首次采用了多位共享讀寫端口的電路結(jié)構(gòu),減小了雙存儲(chǔ)體40 %的版圖面積。
13. According to the shortage of ga converging to a local optimal solution because of reducing the diversity of individuals , the theory of biological immune system is cited , the immune operators including calculation the densities of antibodies , activating or suppressing antibodies and making the memory cell are designed , and effectively combined with ga operators
    同時(shí)，針對遺傳算法在收斂計(jì)算后期，由于種群趨向單一化，出現(xiàn)早熟現(xiàn)象而陷入局部最優(yōu)解的缺點(diǎn)，借鑒生物原理的免疫系統(tǒng)，設(shè)計(jì)出抗體濃度計(jì)算、抗體的抑制/促進(jìn)、構(gòu)造記憶單元等多個(gè)免疫算子，并與遺傳算子進(jìn)行有效結(jié)合。
14. Then , memory cell array and some parts of peripheral circuits used in sram , for example , sense amplifyier and adderss decoder , are designed and verifyied by simulation . furthermore , some novel methods , such as clocked hierarchical word decoding structure , multi - stage sense amplifyier , common data line and data bus equlibruim technology has been applied in the design of 128kbit and imbit sram . what ' s more , we have studied compiler technology applied in the designing course of a imbit full cmos sram from the pointview of methology
    然后對sram的存儲(chǔ)單元電路以及外圍電路中的靈敏放大器和地址譯碼器進(jìn)行了設(shè)計(jì)和模擬，在此基礎(chǔ)上，以128kb和1mb全cmossram設(shè)計(jì)為例，從方法學(xué)角度對同步sram設(shè)計(jì)中的帶時(shí)鐘分等級字線譯碼，多級靈敏放大和位線及總線平衡等技術(shù)進(jìn)行了研究，并給出了相應(yīng)的compiler算法。
15. The characteristics of quantum computing and the mechanism of immune evolution are analyzed and discussed . inspired by the mechanism in which immune cell can gradually accomplish affinity maturation during the self - evolution process , a immune evolutionary algorithm based on quantum computing ( mqea ) is proposed . the algorithm can find out optimal solution by the mechanism in which antibody can be clone selected , memory cells can be produced , similar antibodies can be suppressed and immune cell can be expressed as quantum bit ( q - bit ) . it not only can maintain quite nicely the population diversity than the classical evolutionary algorithm , but also can help to accelerate the convergence speed and converge to the global optimal solution rapidly . the convergence of the mqea is proved and its superiority is shown by some simulation experiments in this paper
    分析和探討了量子計(jì)算的特點(diǎn)及免疫進(jìn)化機(jī)制,并結(jié)合免疫系統(tǒng)的動(dòng)力學(xué)模型和免疫細(xì)胞在自我進(jìn)化中的親和度成熟機(jī)理,提出了一種基于量子計(jì)算的免疫進(jìn)化算法.該算法使用量子比特表達(dá)染色體,通過免疫克隆、記憶細(xì)胞產(chǎn)生和抗體相似性抑制等進(jìn)化機(jī)制可最終找出最優(yōu)解,它比傳統(tǒng)的量子進(jìn)化算法具有更好的種群多樣性、更快的收斂速度和全局尋優(yōu)能力.在此不僅從理論上證明了該算法的收斂,而且通過仿真實(shí)驗(yàn)表明了該算法的優(yōu)越性
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