量子計算 的英文怎麼說
中文拼音 [liángzijìsuàn]
量子計算
英文
quantum computation- 量 : 量動1. (度量) measure 2. (估量) estimate; size up
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 計 : Ⅰ動詞1 (計算) count; compute; calculate; number 2 (設想; 打算) plan; plot Ⅱ名詞1 (測量或計算...
- 算 : Ⅰ動詞1 (計算數目) calculate; reckon; compute; figure 2 (計算進去) include; count 3 (謀劃;計...
- 量子 : quantum; gion
- 計算 : 1 (求得未知數) count; compute; calculate; reckon; enumerate 2 (考慮; 籌劃) consideration; pla...
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Each anyon pair is rather like a particle and its corresponding antiparticle, created out of pure energy
(見66頁拓撲量子計算的原理)每一對任意子就如同一個粒子與其反粒子,是純粹由能量所創造出來的。Chuang, isaac l., lieven m. k. vandersypen, xinlan zhou, debbie w. leung, and seth lloyd. " experimental realization of a quantum algorithm. " nature 393 ( 1998 ) : 6681
量子信息> , 《物理世界》雜志1998年3月號35 ? 57頁其中有很多有名的文章,介紹了有關量子信息的許多東西其中包括:量子通信,量子密碼,量子計算以及與之相關的改進方法。Quantum computers can solve efficiently some of the problems that cannot be attacked by any classical computers, since for these problems there are superfast quantum algorithms thanks to quantum parallelism
量子計算機的優越性主要體現在量子并行計算上,一些經典計算機無法解決的問題運用量子并行計算都可以輕而易舉地得到解決。Researchers have proposed many implementation technologies such as nmr ( nuclear magnetic resonance ), ion trap etc. the 5 qubits and 7 qubits quantum computer have been built in laboratory
已經提出了多種量子計算機的物理實現技術,如核磁共振、離子阱等。目前在實驗室中已經研製出了7位量子計算機原型系統,量子計算機的可行性問題已經解決。The quantum computer has much more computing power than classic computer. it is a new direction for the future computer
量子計算機由於利用量子力學系統的本質特性而具有極高的計算性能,是未來計算機發展的一個方向。Dr rose favours this route, because he sees quantum computers as specialised accelerators for certain tasks, rather than stand - alone number crunchers
羅斯之所以熱衷於這條道路,那是因為他把量子計算機看作是解決某些個特定任務的專業加速器,而非獨立的數字處理器。In this paper, the application of spin chain in the quantum information processing is introduced, including the application in quantum cryptography, teleportation and quantum computation. spin chain can be used as quantum channel to transport quantum state, and can also be used to realize general quantum gate
介紹了自旋鏈在量子信息過程中的應用,包括在量子密碼和隱形傳輸中以及量子計算中的應用,自旋鏈可以充當量子通道用來傳輸量子態,自旋鏈也可以用來實現量子通用門。With the development of the science and technology, especially the discovery of the quantum algorithm and quantum error correction, the quantum information and quantum computer becomes the hot subject of the theory and the experiment
隨著科學技術的發展,特別是量子演算法、量子糾錯的出現,量子信息和量子計算機成為理論和實驗工作者的研究熱點。This technique can enhance the computing performance greatly. we also proposed a self - error - correction quantum storage architecture. it references the research on quantum error - correction code, and can build a reliable storage system
借鑒量子糾錯編碼的研究成果,提出了自糾錯的可靠量子存儲系統方案,為協同量子計算機提供了可靠的存儲系統。In practice, this dissertation focuses on the study of the aforementioned two problems, we have investigated and analyzed the controlling mechanism of the adiabatic conditional geometric quantum phase - shift gates for two - qubit, and realized the geometric quantum computation by making use of the nonadiabatic geometric phase of quantum states of the superconducting josephson junctions quantum interference device system. we have also discussed the accessible information of quantum signal resource ensemble, and studied the teleportation of an arbitrary d - dimensional tv - particle unknown state via a partially - entangled quantum channel ; this dissertation comes in four parts
實際上,我們在本文中就上述兩方面的問題作了一些探討:研究和分析了兩量子位絕熱條件幾何量子相移門的控制機制,利用超導約瑟夫森結量子器件系統的量子態的非絕熱幾何相位實現了幾何量子計算、討論了信源系綜的可接收信息問題以及任意d維n粒子未知量子態通過部分糾纏量子通道的隱態傳輸問題等。The second part, which includes chapter 3 and 4, is designed to discuss the problem about geometric quantum computation : the study of the effective controlling and manipulating on the two - qubit conditional geometric quantum phase - shift gate and the realization of the two - qubit nonadiabatic conditional geometric quantum phase gate
第二部分包括第三章和第四章,這部分主要討論幾何量子計算問題:兩量子位條件幾何量子相移門的有效控制和操縱及兩量子位非絕熱條件幾何量子相位門的實現。Information technology - - quantum computing and computer chips that store trillions of bits of information on a pinhead device
信息技術? ?量子計算和能在針頭大的設備上存貯萬億條信息的計算機蕊片。The simulation results were tallied with theoretic ones, which verified the feasibility of the new method
模擬結果與理論分析結果的一致性驗證了利用量子計算語言進行量子通信協議模擬的可行性。The import of quantum computation language provides a powerful - convenient and universal tool for the research of quantum communication
量子計算語言的引入,為量子通信的研究提供了一種強大、簡便、通用的工具。By applying the quantum computation language which is used in quantum computation to the research of quantum communication, the validity and security simulation of a typical secure direct communication protocol, and various performance indexes of it were achieved
將一種用於量子計算模擬的量子計算語言引入量子通信的研究中,實現了一種典型的量子安全直接通信協議的正確性、安全性模擬驗證,並得到各種性育齡旨標。It is very easy to use qjava to program
利用該語言開發和實現量子計算演算法的編程方便簡潔。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算的特點及免疫進化機制,並結合免疫系統的動力學模型和免疫細胞在自我進化中的親和度成熟機理,提出了一種基於量子計算的免疫進化演算法.該演算法使用量子比特表達染色體,通過免疫克隆、記憶細胞產生和抗體相似性抑制等進化機制可最終找出最優解,它比傳統的量子進化演算法具有更好的種群多樣性、更快的收斂速度和全局尋優能力.在此不僅從理論上證明了該演算法的收斂,而且通過模擬實驗表明了該演算法的優越性Abstract : 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
文摘:分析和探討了量子計算的特點及免疫進化機制,並結合免疫系統的動力學模型和免疫細胞在自我進化中的親和度成熟機理,提出了一種基於量子計算的免疫進化演算法.該演算法使用量子比特表達染色體,通過免疫克隆、記憶細胞產生和抗體相似性抑制等進化機制可最終找出最優解,它比傳統的量子進化演算法具有更好的種群多樣性、更快的收斂速度和全局尋優能力.在此不僅從理論上證明了該演算法的收斂,而且通過模擬實驗表明了該演算法的優越性On one hand, realizing and controlling a quantum logic gate is attended by people because of its inportance for quantum computation
一方面,量子邏輯門的實現和控制因其在量子計算中的重要性而備受人們所重視。Quantum entropy theory is the foundation and powerful tool in understanding and studying such problems as quantum computation, quantum communication, quantum teleportation, quantum measurement and quantum entanglement
它是理解和研究量子計算、量子通信、量子隱形傳態、量子測量、量子糾纏等熱點課題的理論基礎和有力工具。分享友人